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How to Download IEEE Paper free | Download IEEE Research paper | journal paper
 
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LIKE | SHARE | COMMENT | SUBSCRIBE this video is specially for student who are going for research purpose .they can easily download using this tricks. How to | Download | IEEE Paper | free | 2017 How to Download IEEE Journals for FREE from IEEE website Download IEEE paper for free FREE Download Any RESEARCH PAPER From IEEE without any account in 2 Mins IEEE Papers free download download IEEE journal or conference, ebook magazine free within one minute follow these steps:- 1-open IEEE explore http://ieeexplore.ieee.org/Xplore/home.jsp 2-search required document and open it. 3- now open sci-hub 4-copy document link and paste in sci-hub your file is ready OR copy PMID, DOI of a document from any website and paste in sci-hub LIKE |SHARE |COMMENT Youth Crusade SUBSCRIBE https://www.youtube.com/channel/UC8t1AK6GLq8cFIBXCF_hTqw?sub_confirmation=1 FACEBOOK https://www.facebook.com/profile.php?id=100013027577938 TWITTER https://twitter.com/youth_crusade For any issues comment in the comment box, I will provide the solution.
Views: 546 Az Academy
Samsung UE43NU7092 видео обзор Интернет магазина "Евро Склад"
 
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ПОСЕТИТЕ НАШ ИНТЕРНЕТ МАГАЗИН: https://evro-sklad.com.ua/ Производитель: Словакия Гарантия: 12 месяцев официальной гарантии от продавца Поддержка украинского/русского языка: ДА Поддержка украинского контента: ДА Приложения настроены и оптимизированы для Украины Марка, серия и модель Марка/Бренд: Samsung Серия: NU7090 Модель: UE43NU7092UXXH Экран/дисплей Размер/класс.: 43 in (дюймы) Диагональ: 108 см (сантиметры) Ширина: 94.1302 см (сантиметры) Высота: 52.9482 см (сантиметры) Тип матрицы: VA Битность матрицы/Разрядность/Глубина цвета: 10 бит (8 бит + FRC) FRC: Да Отображаемые цвета: 1073741824 цвета, 30 бит Соотношение сторон/формат экрана: 1.778:1, 16:9 Разрешение: 3840 x 2160 пикселей, Ultra HD (UHD) / 4K / 2160p Шаг пикселя: 0.245 мм (миллиметры) Плотность пикселей: 104 ppi (пиксели на дюйм) Площадь экрана: 91.21 % (проценты) Подсветка: Edge-LED HDR: HDR10, HLG (Hybrid Log Gamma), HDR10+ Частоты обновления Частота вертикальной развёртки (цифровой интерфейс): 60 Гц (герцы) Интерполяция кадров Технология: Picture Quality, Index Значение интерполяции: 1300 Единица измерения интерполяции: PQI Эргономика Крепление VESA: Да VESA стандарты: 200 x 200 мм Съемная подставка: Да ТВ-тюнер ТВ-тюнер: Analog (NTSC/PAL/SECAM), DVB-T, DVB-T2, DVB-C, DVB-S, DVB-S2 Система на кристалле (SoC) Количество ядер центрального процессора: 4 Операционная система Операционная система: Tizen 4.0 Аудио Динамики: 2 x 10 Вт (Ватты), 2.0 CH down firing + bass reflex, Dolby Digital Plus Подключение устройств Подключение: 1 x USB 2.0 1 x Ethernet RJ45 2 x HDMI 2.0 (ARC; CEC) 1 x Satellite In (Main; F-type female) 1 x Optical Audio Out 1 x Antenna (RF) (female) 1 x CI+ 1.4 Характеристики Характеристики: Anynet+ (HDMI-CEC) Auto Motion Plus Contrast Enhancer Digital Clean View HDCP (High-bandwidth Digital Content Protection) 2.2 Light sensor Mega Contrast PurColor UHD Dimming UHD Engine Форматы видеофайлов Форматы видеофайлов/кодеки: 3GPP (3rd Generation Partnership Project, .3gp) AVI (Audio Video Interleaved, .avi) ASF (Advanced Systems Format, .asf .wma .wmv) Flash Video (.flv, .f4v, .f4p, .f4a, .f4b) H.263 H.264 / MPEG-4 Part 10 / AVC video H.265 / MPEG-H Part 2 / HEVC MKV (Matroska Multimedia Container, .mkv .mk3d .mka .mks) M2TS (Blu-ray Disc Audio-Video (BDAV) MPEG-2 Transport Stream, .m2ts, .MTS) MP4 (MPEG-4 Part 14, .mp4, .m4a, .m4p, .m4b, .m4r, .m4v) MPEG-4 TS (MPEG Transport Stream, .ts, .tsv, .tsa) VC-1 VP7 VP8 VP9 VOB (Video Object, .VOB) VRO (DVD-VR, .VRO) WebM WMV (Windows Media Video, .wmv) Сеть Сеть: LAN, Wi-Fi, 802.11a (IEEE 802.11a-1999), 802.11b (IEEE 802.11b-1999), 802.11g (IEEE 802.11g-2003) 802.11n (IEEE 802.11n-2009), 802.11n 5GHz, 802.11ac (IEEE 802.11ac), Wi-Fi Direct, DLNA Размеры, вес, цвет Ширина: 97.02 см (сантиметры) Высота: 56.32 см (сантиметры) Глубина: 5.88 см (сантиметры) Вес: 9.6 кг (килограммы) Ширина с подставкой: 97.02 см (сантиметры) Высота с подставкой: 60.52 см (сантиметры) Глубина с подставкой: 20.74 см (сантиметры) Вес с подставко: 9.7 кг (килограммы) Цвет: Чёрный Электропитание и энергопотребление 220V: 200 В - 240 В (вольты) Частота переменного тока: 50 Гц - 60 Гц (герцы) Энергопотребление (режим ожидания): 0.4 Вт (Ватты) Энергопотребление (максимальное): 120 Вт (Ватты) Класс энергоэффективности: A Сертификаты, стандарты и лицензии Сертификаты, стандарты и лицензии. ENERGY STAR RoHS
Views: 429 Евро Sклад
Testing of textile-based MEMS with stamped Ag nanoparticles (1st)
 
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First testing (23 April 2012) of Proprioceptive Sensor made from Silver nanoparticles (AgNP) stamped onto cotton fabrics. The stamped AgNP creates an effect similar to piezoresistivity. The resistance of the strip changes upon finger bending. The details can be read at our publication in IEEE Sensors Journal: A.-C. Yuen, A. Bakir, N. M. Rajdi et al., "Proprioceptive Sensing System for Therapy Assessment Using Cotton Fabric-Based Biomedical Micro Electro Mechanical System," Sensors Journal, IEEE, vol. PP, no. 99, pp. 1-1, 2014. http://dx.doi.org/10.1109/JSEN.2014.2319779 DOI: 10.1109/JSEN.2014.2319779
Views: 101 Dedy Wicaksono
Eye Blink + Alcohol + MEMS + TEMPERATURE + Arduino uno + GSM + GPS + Google Map Location
 
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1. Vehicle Accident Prevention Using Eye Blink, Alcohol, MEMS and TEMPERATURE Sensor's, 2. Eye Blink + Alcohol + MEMS + TEMPERATURE + Arduino uno + GSM + GPS + Google Map Location, 3. WIRELESS ACCIDENT DETECTION SYSTEM USING GPS AND GSM, 4. View of Arduino based real time driver drowsiness detection and, 5. Vehicle Speed Control and Accident Avoidance System using CAN, 6. Vehicle Crash Sensors: Road Safety Analysis - AZoSensors, 7. Vehicle Accident Prevention Using Sensors - Academic Science, 8. Vehicle Accident Prevention Using Sensors, 9. Vehicle Accident Prevention using Eye Blink Sensor (Electronics, 10. Vehicle Accident Prevention System(VAPS), 11. Vehicle Accident Prevention System using GSM and GPS, - IJCTT, 12. Vehicle Accident Prevention System using GSM and GPS Technique, 13. Vehicle Accident Prevention System Hairpin Bend Road Signal ECE, 14. Vehicle Accident Prevention for Automobiles with Eyeblink, Alcohol, 15. Vehicle Accident Detection with GPS & GSM modem — Projects of 8051, 16. VEHICLE ACCIDENT DETECTION USING MEMS SENSOR AND, 17. Vehicle Accident Automatic Detection Using MEMS, GSM, GPS, 18. vehicle accident and Alcohol Sensing Alert with Engine Locking, 19. Vechicle accident prevention using eye bilnk sensor ppt - SlideShare, 20. Train accident prevention system with auto Break, 21. THE DESIGN OF THE SCENE OF THE ACCIDENT ALARM SYSTEM, 22. SMART CAR FOR DRIVER ALERT, 23. Sensor Based Projects Ideas – Wireless Sensor Networks Magazine, 24. Safer Drive using Sensing and Alerting Techniques, 25. Road Accident Avoiding System using Drunken Sensing, - ijert, 26. Research Journal of Pharmaceutical, Biological and, - RJPBCS, 27. Real-time Stage 1 Sleep Detection and Warning System Using a Low, 28. Real-Time Driver Drowsiness Detection System Based on, - IJESC, 29. Real Time Implementation for Monitoring Drowsiness, - ResearchGate, 30. Real Time Accident and Breakdown Alerting Systems: A Survey, 31. pic16f877 based vehicle accident detection using gsm,gps,mems, 32. On-Road Drowsiness Alarm of Drivers using Raspberry Pi - IJRTER, 33. MCEP Based Intelligent Vehicle with Multitask Management - IRD India, 34. Management-Embedded controller for saftey in, - Best Journals, 35. JINS MEME algorithm for estimation and tracking of concentration of, 36. IOT Based Projects: Intelligent Automatic Vehicle Accident Detection, 37. IoT BASED DRIVER ALERTNESS AND HEALTH, - IJARECE, 38. International Journal for Scientific Research, - IJSRD.com, 39. implementation of driver drowsiness alert and automatic, - IJAERD, 41. how to make eye blink sensor, 42. How to make a Automatic accident detection system, 43. GSM and GPS based Vehicle Accident Detection System using, 44. for more project titles log on to - Technofist, 45. Eyeblink accident detector, 46. eye blink sensor using arduino 47. eye blink sensor in car, 48. eye blink sensor circuit diagram, 49. eye blink ir sensor working principle, 50. Eye Blink Detection While Driving Car for Accident Prevention by, 51. Drunk-driving Prevention Concept Car | NISSAN | TECHNOLOGICAL, 52. Drowsiness Detection and Rescue System - International Journal of, 53. Driver Safety Awareness and Assistance System for Cognitive Vehicle, 54. Distance based Accident Avoidance System using CAN protocol, 58. Design hybrid approach for real time eye gazing with hardware, - Irjet, 59. Design and Implementation of Driver Drowsiness and Alcohol, 60. Design and Development of Accident Alerting using Eye Blinking and, 61. Automatic Vehicle Accident Detection and Rescue System, 62. Automatic Vehicle Accident Alert System using Raspberry Pi, 63. Arduino Based Vehicle Accident Detection With Vibration, Alcohol, 64. Arduino based real time driver drowsiness detection and mobile alert, 65. An Integrated Safety Warning System For Driver Fatigue Awareness, 66. an automatic driver drowsiness alert and vehicle control, - ijpres, 67. An Advanced Fatigue, Vehicle Monitoring and Information Processing, 68. Alcohol Based Projects - Alcohol Projects / IEEE project titles 2016, 69. Accident Prevention Using Eye Blinking and Head, - Semantic Scholar, 70. accident prevention using eye blinking and head movement, 71. accident prevention using eye blink sensor ieee paper, 72. accident prevention system using sensors, 73. Accident Prevention System Using Eye Blink Sensor - Irjet, 74. Accident Prevention for Vehicles using Ultrasonic Sensor, 75. Accident Prevention & Tracking System For Night Drivers, 76. Accident Avoidance Using Eye Blink Detection - ijifr, 77. A Survey of Drowsiness Detection System for Drivers - IJIRCCE, 78. A Smartphone-Based Driver Safety Monitoring System Using, - MDPI, 79. A review on Drowsiness and Alcohol Detection for car, - IJRASET, 80. A review on Drowsiness and Alcohol Detection for car assisted driver, 81. A Real Time Embedded System Application for Driver Drowsiness and,
Views: 958 svsembedded
Online Power Consumption Meter - IEEE DIY Project
 
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The target was the construction of a Watt cosmumption counter with the help of an Arduino microcontroller. Then we present the stats we got from the Arduino in this website. Beyond the live indication of the consumption, there is the ability to present past data with the form of graphs. Team Members : George Dimas Alexandros Modis Vasilis Balafas George Stefanidis
Views: 27594 UoWM IEEE SB
SilhouettePlay.mp4
 
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IEEE Spectrum Magazine visits New York University's Interactive Telecommunications Program Winter Show 2010. Eszter Ozswald shows Spectrum's Joseph Calamia her project called "Silhouette Play." Video by Joshua Romero.
Views: 1505 IEEE Spectrum
"AR & Privacy" Google+ Hangout, hosted by IEEE
 
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As the use of mobile Augmented Reality (AR) becomes more pervasive, companies and individuals are exploring many new opportunities to simplify their lives and streamline their businesses. Most AR systems are delivering information just-in-time in small, context-sensitive bites, and are also capable of capturing every movement and adapting over time with use. The same sensors are also capturing the faces of those who are un-intentionally in the camera's field of view.  The panelists gathered for this session are experts in information privacy, identity management and personal data. They will share their opinions about the impacts AR may have on corporate and personal privacy.
IEEE Communications Society Digital Library
 
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© 2013 IEEE Communications Society // http://www.comsoc.org
Views: 579 IEEEComSoc
IEEE AP/MTT/EMC/ED Turkey Seminars - Prof. Tayfun Akın, February 23, 2018
 
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Speaker: Prof. Tayfun AKIN, Faculty in Electrical and Electronics Eng. Dept. at METU, Director of METU-MEMS Center, Co-founder of Mikro-Tasarim, Mikrosens, Mikrosistemler, Mikro Biyosistemler, Pikselim, and AREFSENS Topic: “METU-MEMS Center” Location: Middle East Technical University, Ankara, Turkey Abstract: The first MEMS program in Turkey started its activities in 1995 at METU, leading to the first MEMS Center of Turkey. The METU-MEMS Center has a 1300 m2 cleanroom area with the state-of-the-art MEMS fabrication tools with 4”, 6”, and 8” wafer processing capability, thanks to the $65M national and international research funds, mostly raised in the past 10 years. METU MEMS Center has recently become one of the first 4 national centers of Turkey. The talk will introduce METU-MEMS Center, along with its research activities, summarizing the research achievements of the selected subjects, including low-cost CMOS based microbolometers that attracted VC funding to set up a spin-off company, gyroscopes showing performances below 1degree/hour, accelerometers showing performances below 10ug with above 130dB dynamic range, RF MEMS switches operating above 12 billion cycles, innovative and patented BioMEMS devices for cancer cell detection and for cochlear implants. The talk will also introduce two current spin-off/start-up companies from METU working on infrared detectors and readout electronics, namely Mikrosens and Mikro-Tasarim. Mikrosens is a fabless semiconductor company, developing ultra-low-cost infrared detectors with only one-mask post-CMOS process. Mikro-Tasarim is also a fabless semiconductor company, developing ROICs and their driver/digitizer ASICs for hybrid/monolithic, cooled/uncooled detectors in UV, Visible, NIR, SWIR, MWIR, and LWIR wavelengths. Bio: Prof. Dr. Tayfun Akin received B.S. degree in electrical and electronics eng with high honors from Middle East Tech. Univ. (METU) Ankara, Turkey, in 1987 and went to USA for his graduate studies with a fellowship provided by NATO Science Scholarship Program through TUBITAK. He received M.S. and Ph.D. degrees in 1989 and 1994 in electrical eng., from Univ. of Michigan, Ann Arbor. He returned to Turkey in 1995 to start the country’s first MicroElectroMechanical Systems (MEMS) program. He became Asst. Prof. in 1995, Assoc. Prof. in 1998, and Prof. in 2004 in Dept. of Electrical and Electronics Eng. at METU. He served as the Chair of METU Micro and Nanotechnology Graduate Program for 3 years. He is the Director of the METU-MEMS Center, which has a vision of not only conducting state-of-the-art research on MEMS, but also establishing a high tech industry based on the MEMS technology. He raised and managed over 65M USD funding for several national and international projects, including EU (FP6, FP7, Horizon2020), NATO, and NSF-USA funded projects. He has served in various MEMS, EUROSENSORS, TRANSDUCERS, and SPIE conferences as a committee member. He received a number of national and international awards. He was the co-chair of IEEE MEMS Conf. held in Istanbul in 2006. He is the winner of the First Prize in Experienced Analog/Digital Mixed-Signal Design Category at 1994 Student VLSI Circuit Design Contest organized by Mentor Graphics, Texas Instruments, Hewlett-Packard, Sun Microsystems, and Electronic Design Magazine. He has a total of over 200 international journal and conference publications. He is also co-founder of six start-up companies, namely Mikro-Tasarim, MikroSens, Pikselim, Mikro BiyoSistemler, Mikrosistemler, and AREF Sens.
Views: 257 METU EEE
IEEE Computer Society publications
 
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The IEEE Computer Society produces 26 cutting-edge magazines and journals for the engineering professional. Our digital libraries are an excellent resource for both engineers and corporations.
Views: 971 ieeeComputerSociety
Imagine RIT / IEEE SDC - Tigerbot
 
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Tigerbot is an autonomous humanoid robot platform capable of interacting with its environment. Distance sensors allow it to detect nearby objects and speech recognition allows it to interact with users. A gyroscope and accelerometer make Tigerbot capable of sensing its own position and correcting accordingly to remain stable. Two batteries are located in the feet to enable completely wireless operation. 3 USB ports on the main controller can be used for things like wireless network adapters, interfacing with a webcam, and other add-on devices that may be useful in the future. The entire project was designed from scratch in 10 weeks. Construction, programming, and testing were done in 7 weeks. Tigerbot is meant to be a platform that can be further refined and developed in the future. Tigerbot was on display at Imagine RIT 2012 and won 1st place in the IEEE Student Design Contest.
Views: 648 Jws0001
2013 IEEE Communications Society Awards Ceremony // FULL VERSION // HD
 
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2013 IEEE Communications Society Awards Ceremony Atlanta, GA USA http://www.comsoc.org/AwardsCeremonies
Views: 367 IEEEComSoc
Interview with Robert Schober, Editor-in-Chief, IEEE Transactions on Communications
 
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Robert Schober on IEEE Transactions on Communications - interview by Elena Neira, Director of IEEE ComSoc Online Content
Views: 1170 IEEEComSoc
2018 Apple MacBook Air Unboxing & First Look Review
 
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22% OFF Discount Code: Andrew-W https://www.0n9.com/windows-10-professional-oem-key.html Microsoft Office 2016 Professional Plus Retail Key $29.69 10% OFF Discount Code: Andrew-M (Sitewide code) https://www.0n9.com/microsoft-office-2016-professional-plus-retail-key.html New Apple iPad Pro (2018): https://amzn.to/2DB0BV9 #iMacBookAir2018 #MacBook Air #Apple Price $1199 $1399 Display Retina display 13.3-inch (diagonal) LED-backlit display with IPS technology; 2560-by-1600 native resolution at 227 pixels per inch with support for millions of colors Supported scaled resolutions: 1680 by 1050 1440 by 900 1024 by 640 16:10 aspect ratio Touch ID Integrated Touch ID sensor Finish GoldSilverSpace Gray Processor 1.6GHz dual-core Intel Core i5, Turbo Boost up to 3.6GHz, with 4MB L3 cache Storage1 128GB PCIe-based SSD Configurable to 256GB, 512GB, or 1.5TB SSD 256GB PCIe-based SSD Configurable to 512GB or 1.5TB SSD Memory 8GB of 2133MHz LPDDR3 onboard memory Configurable to 16GB of memory Battery and Power2 Up to 12 hours wireless web Up to 13 hours iTunes movie playback Up to 30 days of standby time Built-in 50.3‑watt‑hour lithium‑polymer battery 30W USB-C Power Adapter; USB-C power port Size and Weight Height: 0.16–0.61 inch (0.41–1.56 cm) Width: 11.97 inches (30.41 cm) Depth: 8.36 inches (21.24 cm) Weight: 2.75 pounds (1.25 kg)3 11.97"0.61" Graphics Intel UHD Graphics 617 Support for Thunderbolt 3–enabled external graphics processors (eGPUs) Video Support Simultaneously supports full native resolution on the built-in display at millions of colors and: One external display with 5120-by-2880 resolution at up to 60Hz Up to two external displays with 4096-by-2304 resolution at up to 60Hz Thunderbolt 3 digital video output Native DisplayPort output over USB‑C VGA, HDMI, and Thunderbolt 2 output using adapters (sold separately) Camera 720p FaceTime HD camera Charging and Expansion Two Thunderbolt 3 (USB-C) ports with support for: Charging DisplayPort Thunderbolt (up to 40 Gbps) USB-C 3.1 Gen 2 (up to 10 Gbps) Wireless 802.11ac Wi-Fi wireless networking; IEEE 802.11a/b/g/n compatible Bluetooth 4.2 wireless technology Audio Stereo speakers Three microphones 3.5 mm headphone jack Keyboard and Trackpad Full-size keyboard with: 78 (U.S.) or 79 (ISO) individual LED-backlit keys, including 12 function keys and 4 arrow keys Ambient light sensor Force Touch trackpad for precise cursor control and pressure-sensing capabilities; enables Force clicks, accelerators, pressure-sensitive drawing, and Multi-Touch gestures Electrical and Operating Requirements Line voltage: 100–240V AC Frequency: 50Hz to 60Hz Operating temperature: 50° to 95° F (10° to 35° C) Storage temperature: −13° to 113° F (−25° to 45° C) Relative humidity: 0% to 90% noncondensing Operating altitude: tested up to 10,000 feet Maximum storage altitude: 15,000 feet Maximum shipping altitude: 35,000 feet Operating System macOS macOS is the operating system that powers everything you do on a Mac. macOS Mojave brings new features inspired by its most powerful users but designed for everyone. So you can get more out of every click. Learn moreabout macOS Accessibility Accessibility features help people with disabilities get the most out of their new MacBook Air. With built-in support for vision, hearing, physical and motor skills, and learning and literacy, you can create and do amazing things. Learn moreabout accessibility Features include: VoiceOver Zoom Increase Contrast Reduce Motion Siri and Dictation Switch Control Liked this video? Want to give a one-time contribution to show your appreciation? Well how about helping support AMDtech to help continue to bring you awesome content: https://cash.me/$andrewmarcdavid Gear and Products I use everyday and products that I think are great: https://www.amazon.com/shop/amdtech
Views: 5961 Andrew Marc David
Iot Based Smart Farming in Smart Agriculture Monitoring System
 
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1. Iot Based Smart Farming in Smart Agriculture Monitoring System, 2. IOT Based Monitoring System in Smart Agriculture - IEEE Conference, 3. IoT Applications in Agriculture | IoT For All, 4. (PDF) Smart farming: IoT based smart sensors agriculture stick for live, 5. Crop monitoring and smart farming using IoT – GeeksforGeeks, 6. Smart Farming – Internet of Things Solutions for, - Softweb Iot, 7. IOT Based Smart Farming System (Computer/Electronics Project, 8. IoT in Agriculture: Five Technology Uses for Smart Farming and, 9. Smart Agriculture Using IOT, 10. Smart Farming | 2018 Guide to IoT Agriculture Applications, 11. AWS Internet of Things, 12. Smart farming | Wireless Monitoring Solution‎, 13. IoT Solutions for Agriculture | AggreGate Platform, 14. iot based smart agriculture monitoring system, 15. iot based smart agriculture pdf, 16. iot based smart agriculture ieee paper, 17. smart agriculture using iot pdf, 18. iot in agriculture pdf, 19. smart farming iot pdf, 20. iot in agriculture india, 21. iot in agriculture ppt, 22. IOT BASED SMART AGRICULTURE – SlideShare, 23. IoT based Smart Agriculture – IJARCCE, 24. IoT in Agriculture: 5 Technology Use Cases for Smart Farming (and 4, 25. Smart Agriculture System with IoT - Hackster.io, 26. An In-Depth Look At IoT In Agriculture & Smart Farming Solutions, 27. IoT Based Smart Farming Stick Using Arduino and Cloud Computing, 28. Solutions for Smart Farming - Agriculture IoT Solutions and Internet of, 29. IOT Based Monitoring System in Smart Agriculture - IEEE Computer, 30. Smart Farming: IoT in agriculture - IoT India Magazine, 31. IoT India Congress 2018 | 9th & 10th October , Bangalore‎, 32. Create your own IoT Solution | ICP DAS help you achieve‎, 33. IOT Based Smart Farming - Bacancy Technology, 34. Smart agriculture monitoring system using IoT | Lashitha Vishnu Priya, 35. IoT Based Agriculture Monitoring and Smart Irrigation System, - Irjet, 36. Iot Based Smart Agriculture Monitoring System – ijritcc, 37. Internet of Things Platform for Smart Farming: Experiences and, - MDPI, 38. Smart farming and smart agriculture solutions | ThingsBoard, 39. IoT in Smart Agriculture - Mobiloitte Blog, 40. IoT TECHNICIAN (SMART AGRICULTURE) - Directorate General of, 41. IoT Steps Up Smart Farming and Precision Agricu... | NASSCOM, 42. Smart Farming Solutions - How IoT transforms Agriculture Sector, 43. Agriculture Automation using Internet of Things-IJAERD, 44. iot based smart security and monitoring devices for agriculture, 45. internet of things based smart agriculture system using predictive, 46. smart agriculture monitoring system based on internet of things (iot), 47. IOT based Precision Agriculture – ijirset, 48. IoT-based smart farming system to help farmers save water, 49. IoT as a solution for precision farming - IoT Agenda, 50. IoT Solutions for Smart Farming, Farmers, Agriculture, Farmbots App, 51. smart farming using iot - IAEME Journals, 52. iot based smart farming system – JETIR, 53. IOT Based Monitoring System in Smart Agriculture - Semantic Scholar, 54. Internet of Things based Expert System for Smart Agriculture, 55. Internet of Things Now a Growing Trend in India's Agriculture | Internet, 56. IOT Based Smart Agriculture Monitoring System | Internet Of Things, 57. An IoT Based Smart Agriculture System with Soil Moisture Sensor – CIEM, 58. Iot based smart agriculture pdf - Gordon Sign, 59. Revolution in farming – IoT based smart farming – YourStory, 60. The possibilities of Internet of Things (IoT) for Agriculture | E-Agriculture, 61. IMPLEMENTATION OF SMART FARM MONITORING USING IOT, 62. SenzMate : IoT based smart farming solution, 63. Iot based smart security and monitoring devices for agriculture – IJIRR, 64. a survey on iot enabled expert system for smart agriculture, 65. Smart Agriculture in Nigeria With Iot; A Reality - American journal of, 66. Smart Agriculture Sensors | Mouser, 67. Smart Farming—Automated and Connected Agriculture, 68. IoT in Agriculture : Fujitsu India, 69. The IoT Marketplace - Smart Agriculture – Solutions, 70. Iot Based Smart Agriculture Monitoring System, 71. IoT Enabled Smart Farming, 72. Smart Agriculture Using IOT, 73. Smart Farming | 2018 Guide to IoT Agriculture Applications, 74. Smart Farming using IOT, 75. IOT Based Smart E Agriculture Monitoring on Webpage Motor, 76. IoT in Agriculture: Smart Farming Solutions | Telit, 77. IOT based crop field monitoring and irrigation automation - IOT Final, 78. IOT Based Agriculture Crop - Field Monitoring System and Irrigation, 79. IOT BASED DIGITAL FARMING, 80. eAgri - Smart Agriculture Demo, 81. Smart E-Agriculture Monitoring Using Internet Of Things, 82. Internet of Things (IoT) - SMART AGRICULTURE, 83. Agriculture IoT System, 84. Smart Farming: Wifi Based Agriculture Sensors (Temperature, 85. Smart Agriculture using IOT,
Views: 762 svsembedded
Smart Farming using IOT
 
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1. IoT Enabled Smart Farming - An IoT Solution for Agriculture and Poultry Farming, 2. IoT Applications in Agriculture | IoT For All, 3. Smart Agriculture Sensors | Mouser, 4. Smart Farming – Internet of Things Solutions for, - Softweb Iot, 5. IOT BASED SMART AGRICULTURE – SlideShare, 6. Why IoT, Big Data & Smart Farming Are the Future of Agriculture – BI, 7. Smart Agriculture System with IoT - Hackster.io, 8. IoT based Smart Agriculture – ijarcce, 9. Smart Farming: IoT in agriculture - IoT India Magazine, 10. IoT and Smart Farming will help Indian farmers | Areas to Cover, 11. 3 Ways the IoT Revolutionizes Farming | Electronic Design, 12. precision farming (PDF) - Beecham Research, 13. Crop monitoring and smart farming using IoT – GeeksforGeeks, 14. IOT Based Monitoring System in Smart Agriculture - IEEE Conference, 15. Smart farming using IOT - IEEE Conference Publication - IEEE Xplore,. 16. smart farming using iot - IAEME Journals, 17. Solutions for Smart Farming - Agriculture IoT Solutions and Internet of, 18. An In-Depth Look At IoT In Agriculture & Smart Farming Solutions, 19. Smart Farming | 2018 Guide to IoT Agriculture Applications, 20. The Future of Smart Farming With IoT and Open Source Farming, 21. IoT Based Smart Farming: 5 Steps (with Pictures) – Instructables, 22. smart farming using iot pdf, 23. smart farming using iot ppt, 24. smart agriculture using iot ppt, 25. smart agriculture using iot pdf, 26. smart farming iot pdf, 27. iot in agriculture research papers, 28. iot based smart agriculture ieee paper, 29. iot based agricultural projects, 30. Smart farm monitoring using Raspberry Pi and Arduino | Request PDF, 31. Smart Farm Monitoring Using Raspberry Pi and Arduino – IJMETMR, 32. Farm Automation System Based on Arduino and Raspberry Pi - DZone, 33. Android Arduino Interface with Smart Farming System - International, 34. Iot Based Smart Poultry Farming using Commodity Hardware and, 35. IOT based Smart Farm Monitoring Using Raspberry PI – IJORST, 36. Farming Robot and IoT based Smart Agriculture – Collaborizm, 37. IOT Based Smart Poultry Farm - Ishitv Technologies, 38. Smart Poultry Farm Monitoring Using IOT and Wireless, - IJARCS, 39. Smart Farming using arduino, 40. arduino farming projects, 41. arduino farm automation, 42. arduino agriculture sensors, 43. smart agriculture using arduino, 44. raspberry pi agriculture project, 45. raspberry pi farm projects, 46. smart agriculture using arduino pdf, 47. farm automation pdf, 48. iot based smart farm irrigation system using raspberry pi, 49. IoT Based Agriculture Monitoring and Smart Irrigation System Using, 50. IOT Based Smart Greenhouse and Poultry Farm Environment, 51. IJSRD - International Journal for Scientific Research, - IJSRD.com, 52. smart irrigation monitoring system using raspberry pi, 53. wifi based agricultural sensor monitoring system, 54. 194 iot Projects - Arduino Project Hub - Arduino Create, 55. Wireless Sensor-based Agricultural Monitoring System, 56. Linux Webserver based Smart Farm Monitoring using Raspberry PI, 57. raspberry pi using ir thermal camera in agriculture farm for smart, 58. Smart Agriculture Monitoring and Data Acqusition System – IRJET, 59. Food and Water Level Control Mechanism for Smart, - IJIRCCE, 60. design of smart farm environment control system based on public data, 61. IOT Based Wireless Sensor Network for Prevention of Crops, - ijecscse, 62. iot based automatic drip irrigation system – ITRA, 63. Advance Agro Farm Design With Smart Farming, Irrigatio,n, - Adalidda, 64. Smart Agriculture System with IoT - Hackster.io, 65. raspberry-pi IEEE PAPER 2018weather forecasting using raspberry pi with internet of things (iot), 66. Smart Agriculture Archives | Electronics For You, 67. Instructable IoT Projects - Instructables Search Results, 68. IOT - Zigbee sensor, Industrial, farm, building automation Freedomotic, 69. Smart farming: IoT based smart sensors agriculture stick for live, 70. Iot Based Smart Agriculture Monitoring System – ijritcc,
Views: 7294 svsembedded
Multi-Sensor Surface Analysis for Robotic Ironing --- ICRA2016
 
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The paper will be presented in IEEE International Conference on Robotics and Automation (ICRA), Stockholm, May 2016. Author: Yinxiao Li, Xiuhan Hu, Danfei Xu, Yonghao Yue, Eitan Grinspun, Peter Allen (Columbia University) Paper: http://arxiv.org/abs/1602.04918 Related: http://www.cs.columbia.edu/~yli/laundry_robot Abstract: Robotic manipulation of deformable objects remains a challenging task. One such task is to iron a piece of cloth autonomously. Given a roughly flattened cloth, the goal is to have an ironing plan that can iteratively apply a regular iron to remove all the major wrinkles by a robot. We present a novel solution to analyze the cloth surface by fusing two surface scan techniques: a curvature scan and a discontinuity scan. The curvature scan can estimate the height deviation of the cloth surface, while the discontinuity scan can effectively detect sharp surface features, such as wrinkles. We use this information to detect the regions that need to be pulled and extended before ironing, and the other regions where we want to detect wrinkles and apply ironing to remove the wrinkles. We demonstrate that our hybrid scan technique is able to capture and classify wrinkles over the surface robustly. Given detected wrinkles, we enable a robot to iron them using shape features. Experimental results show that using our wrinkle analysis algorithm, our robot is able to iron the cloth surface and effectively remove the wrinkles.
Views: 39440 Yinxiao Li
Smart Agriculture Using IOT
 
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1. Smart Agriculture Using IOT, 2. IOT Based Monitoring System in Smart Agriculture - IEEE Conference, 3. A Model for Smart Agriculture Using IoT - IEEE Xplore, 4. Crop monitoring and smart farming using IoT - GeeksforGeeks, 5. Smart Agriculture System with IoT - Hackster.io, 6. IOT BASED SMART AGRICULTURE - SlideShare, 7. Smart Agriculture Using IoT and WSN Based Modern, - IJIRCCE, 8. The Future of Smart Farming With IoT and Open Source Farming, 9. An In-Depth Look At IoT In Agriculture & Smart Farming Solutions, 10. smart agriculture using iot pdf, 11. smart agriculture using iot ppt, 12. smart agriculture using iot abstract, 13. smart agriculture using iot ieee papers, 14. iot based smart agriculture pdf, 15. iot based smart agriculture ieee paper, 16. iot based smart agriculture ppt, 17. iot based agricultural projects, 18. Solutions for Smart Farming - Agriculture IoT Solutions and Internet of, 19. Smart Farming | 2018 Guide to IoT Agriculture Applications, 20. IoT Applications in Agriculture | IoT For All, 21. Iot Based Smart Agriculture Monitoring System - ijritcc, 22. IOT Based Monitoring System in Smart Agriculture - IEEE Computer, 23. Smart Farming – Internet of Things Solutions for, - Softweb Iot, 24. IoT in Smart Agriculture – Mobiloitte Blog, 25. Why IoT, Big Data & Smart Farming Are the Future of Agriculture, 26. internet of things based smart agriculture system using predictive, 27. IoT as a solution for precision farming - IoT Agenda, 28. Smart Farming: IoT in agriculture - IoT India Magazine, 29. Smart farming and smart agriculture solutions | ThingsBoard, 30. IoT Based Smart Farming Stick Using Arduino and Cloud Computing, 31. A model for smart agriculture using IoT - Semantic Scholar, 32. What are some interesting internet of things (IoT) projects in agriculture?, 33. SMART AGRICULTURE TECHNOLOGY USING INERNET OF THINGS, 34. Smart Agriculture-Using IoT in Field monitoring and Automation for, 35. 10 Benefits of a Smart Agriculture Solution - IoT and Farming - C2M, 36. 3 Ways the IoT Revolutionizes Farming | Electronic Design, 37. Internet of Things based Expert System for Smart Agriculture, 38. IoT and Agriculture: The Smarter Way to Grow Food | Cabot Technology, 39. Smart Agriculture Sensors | Mouser, 40. precision farming (PDF) - Beecham Research, 41. SMART FARMING USING IOT | Internet Of Things | Agriculture - Scribd, 42. Smart farming: IoT based smart sensors agriculture stick for live, 43. IOT based smart agriculture using Arduino - Arduino Forum, 44. Monitoring system using web of things in precision agriculture, 45. sensor based smart agriculture using iot - ijmsr, 46. IoT Based Agriculture Monitoring and Smart Irrigation System Using, 47. Top 50 Internet of Things Applications - Ranking | Libelium, 48. smart agriculture using iot - DigitalXplore, 49. Role of IoT in Agriculture - IOSR journals, 50. IoT and Smart Farming will help Indian farmers | Areas to Cover, 51. Agriculture Internet of Things (IoT) Technology | Applications - IoT Worm, 52. IoT and “Smart Agriculture” - TiEinflect 2018, 53. Internet of Things in Precision Agriculture using Wireless Sensor, 54. Why IoT, big data & smart farming are the future of agriculture | E, 55. How is IoT transforming irrigation and improving agriculture - Open, 56. Ideas on Smart Farming | MyGov.in, 57. NNNCo. - Smart Agricultural Solutions using IoT, LoRaWAN & NB-IoT, 58. A DETERMINISTIC APPROACH FOR SMART AGRICULTURE USING, 59. Food Security Through Smart Agriculture - Internet Of Things | IoT India, 60. iot based smart farming system - JETIR, 61. IoT Based Smart Farming and Agriculture Solutions | Technavio, 62. Revolutionizing Smart Agriculture Using Semtech's LoRa Technology, 63. Smart Agriculture IoT Vertical Kit at MG Super Labs India, 64. Smart Agriculture System based on IoT and its Social Impact, 65. FLIP Smart Agriculture IoT Kit: Amazon.in: Electronics - Amazon India, 66. Smart agriculture with sensor technology | Bosch Global, 67. Iot Based Smart Agriculture Monitoring System, 68. IoT Enabled Smart Farming, 69. Smart Agriculture using IOT, 70. Internet of Things (IoT) - SMART AGRICULTURE, 71. Iot Based Smart Agriculture Monitoring System, 72. IOT Based Agriculture Crop - Field Monitoring System and Irrigation, 73. IoT — Smart Cities and Smart Agriculture, 74. Agriculture IoT System, 75. Smart E-Agriculture Monitoring Using Internet Of Things, 76. IOT based crop field monitoring and irrigation automation - IOT Final, 77. SMART AGRICULTURE USING IoT AND IMAGE PROCESSING, 78. IOT Based Smart E Agriculture Monitoring on Webpage Motor, 79. Smart farming by iot and cognitive farming, 80. Internet-of-Things (IoT) and New Sensors - Agriculture IoT in Action,
Views: 8215 svsembedded
Arduino Based Alcohol Sensing Alert System Using GPS and GSM
 
07:35
1. Alcohol Detection with Vehicle Controlling using Mq3 sensor with GSM and GPS. 2. Alcohol Detection and Vehicle Controlling – IJETA, 3. Alcohol Detection with Vehicle Controlling – IJEMR, 4. Accident Avoidance and Detection – IJLTEMAS, 5. Alcohol Detection and Accident Avoidance Using PIC 16876A - IJARCSMS., 6. Driver Behavior Detection and Vehicle Controlling System, 7. Alcohol Detection based Engine Locking System using MQ-3 Sensor, 8. Alcohol Detection based Engine Locking., 9. Alcohol Detection system with Vehicle Controlling, 10. Alcohol Detection system with Vehicle Engine Locking Project | Fast , 11. alcohol detection with vehicle controlling project report, 12. alcohol detection with vehicle controlling project ppt, 13. alcohol detection system in cars pdf, 14. alcohol sensing alert with engine locking pdf, 15. sms based alcohol detection with vehicle controlling using gsm technology, 16. alcohol detection with vehicle controlling project circuit diagram, 17. alcohol detection with vehicle controlling using arduino, 18. alcohol sensing alert with engine locking project circuit diagram, 19. Development of a breathalyzer for car drivers - IEEE Xplore Document, 20. Accident Alarm System using GSM, GPS and Accelerometer, 21. Vehicle Accident Prevention System using GSM and GPS – IJCTT, 22. Development and Testing of Adaptive Vehicle Speed Monitoring, 23. SENSOR BASED APPLICATION FOR SMART VEHICLES – ijltet, 24. Alcohol Detection with Vehicle Controlling , 25. Multi-Functional Monitoring System – IJETT, 26. human safety and air pollution detection in vehicles - ijtra.com, 27. How to make Alcohol Detection System – WatchYT, 28. Implementation of Advance Automobile System for Accident Detection, 29. Bike Riders Safety Using Helmet - International Journal of Electrical, 30. Experimental Investigation to control Alcoholic Driving, 31. Alcohol Detection and Motor Locking System – IJAREEIE, 32. Design and Implement an Automatic Safety Driving System – IJMTER, 33. smart helmet safety system using atmega 32 – IJRET, 34. Alcohol Sensing Alert with Engine Locking Project | NevonProjects, 35. Microcontroller based automatic engine locking system, 36. Alcohol Detection Alert with Automatic Engine Locking Project, 37. automatic engine locking system for drunk drivers pdf, 38. alcohol sensing alert with engine locking project pdf, 39. alcohol detection with vehicle controlling project report, 40. automatic engine locking system for drunk and drive system ppt, 41. alcohol sensing alert with engine locking project circuit diagram, 42. alcohol sensing and engine locking system ppt, 43. alcohol detection with vehicle controlling ppt, 44. alcohol sensing alert with engine locking ppt, 45. Self-Configuration and Smart Binding Control on IOT Applications, 46. Smart Allergen Notification & Registering System, 47. Smart and Tiny IOT based data acquisition system based on advanced Cortex M3 based controller, 48. Smart Briefcase - Track, Monitor and Control your Briefcase from a Mobile Application, 49. Smart Cap: Vision for the visually impaired using Deep Learning, 50. Smart Configurable WiFi Enabled Switch, 51. Smart Doorbell with cloud based notifier, 52. Smart Enviornment Monitoring system Integrated with cloud, 53. Smart fire alert system for industrial fire based on IoT, 54. Smart Home Automation Hub with MQTT Protocol (with NodeMCU & MQTT Protocol), 55. Smart Mirror - Connected with Internet, 56. Smart Parking System for Smart Cities, 57. Smart Security for Homes using Raspberry Pi, 58. Smart Security Solutions based on Internet of Things (IoT) for large industrial plants, 59. Smart Vehicle Tracking System with Notification Service, 60. Smart Waste Management system based on Internet of Things, 61. Smart Water Management System for Smart Cities , 62. Street lights monitor (failure lights alert) and controller over internet for smart cities, 63. Talking Plant - Smart Plant Monitoring System, 64. technology for iot-based personal healthcare in smart spacesng, 65. Temperature measuring and reporting system with graph using IOT, 66. Top 10 IoT Training Institutes in India – 2018 - Analytics India Magazine, 67. Under water Climate Monitroing and Control System Application through mobile phone, 68. Virtual care taker-online patient monitoring system., 69. WiFi Enabled Connected Robots for Industrial Applications, 70. WSN based Intelligent Street Lighting system, 71. WSN based smart irrigation system for agriculture, 72. WSN Design For Liquid Spill Detection For Data Centre Break Down and Corroision Detection, 73. WSN Design for Selective Irrigation for Parks and Grounds, 74. WSN Telemetry Design for Light Intensity Detection From Isolated Forest Lands,
Views: 1726 svsembedded
Sonoff Wi-Fi Switch Works with Alexa / Google Home plus circuit diagram
 
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If you want to use these types of switches in a hallway where you have a 2 way lighting circuit check out this video to understand how to do it: https://youtu.be/W2pcYp2pPWA Check prices / Purchase here: UK - https://amzn.to/2JgLtP5 US - https://amzn.to/2suzsv5 ====================================== https://www.amazon.com/shop/geekstreet ====================================== ✅ Don't forget to Like this video and Subscribe to our channel (IT'S FREE) https://www.youtube.com/GeekStreet Remember to follow us on social media, as you'll get an early preview of up and coming videos before they are released. ✅ TWITTER: https://twitter.com/YouTubeGeekSt ✅ INSTAGRAM: https://www.instagram.com/YouTubeGeekStreet/ ✅ FACEBOOK: https://www.facebook.com/YouTubeGeekStreet/ ✅ Email for business enquires: [email protected] ✅ Live Chat via WeChat id: GeekStreet ====================================== Sonoff Touch Wi-Fi Switch Wireless Intelligence Wall Switches Support Timing and Remote Control Via APP Work with Alexa Google Home Product description Specification: Type: Sonoff Touch Wi-Fi Switch Material: Flame-resistant ABS, toughened glass Quantity: 1 pc Item Color: White Rated Voltage: AC 90V-250V, 50/60Hz Max Load: 400W / 2A Wi-Fi: 2.4GHz, IEEE 802.11 b/g/n OS Supported: Android 2.3 or above and iOS 6.0 or above Work Temp.: -40~60 °C Certification: CE, RoHS Size: 8.6*8.6*3.4cm / 3.4*3.4*1.3" (L*W*H) Net Weight: 0.105kg / 3.7oz Note: This Wi-Fi touch switch only works with 3-wire electricity system, has to be connected with a neutral wire. Package: 1*Touch switch 1*Warranty card 1*Package box
Views: 10624 Geek Street
Bending Characteristics of Nylon-6/MWNT/calixarene Na+ Sensor
 
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See the resulting publication from when I worked in the Monty Research Laboratory at the University of Akron: http://ieeexplore.ieee.org/xpl/login.jsp?tp=&arnumber=6494582&url=http%3A%2F%2Fieeexplore.ieee.org%2Fxpls%2Fabs_all.jsp%3Farnumber%3D6494582
Views: 394 Evan Wujcik
Abu Dhabi University Library - IEEE in Focus
 
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IEEE is the best database if you are looking for resources on computer engineering , Information Technology, Artificial intelligence , Aviation and all technology fields. The IEEE Computer Society Digital Library (CSDL) provides online access to 27 society magazines and transactions and more than 4,100 conference publications. IEEE Computer Society is the computing professional's single, unmatched source for technology information, inspiration and collaboration. By making the most up-to-date and advanced information in the computing world easily accessible, we are the source that computing professionals trust to provide high quality, state-of-the-art information on an on-demand basis.
Views: 170 ADULibraryRef
Mobile Mapping Indoors and Outdoors with Zebedee
 
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Zebedee is a handheld 3D mobile mapping system developed at CSIRO. The primary sensor is a 2D Hokuyo lidar scanner which measures the distances to surfaces in the environment (43200 samples per second). A simple spring mechanism is used to convert the natural motion of the operator into scanning sweeps that result in a 3D field of view. CSIRO's specialized software interprets the raw data to estimate the motion of the scanner and generate a 3D point cloud model of the environment. As seen in the video, the system is capable of large-scale mapping of a wide variety of environments ranging from built to natural scenes. Typically, the time it takes to map an environment is the time it takes to walk through it. For visualization purposes, the point clouds shown in this video contain only 9 percent of the points from the full point cloud. Publications describing the technology: [1] https://db.tt/lUIKVWXD or http://dx.doi.org/10.1109/TRO.2012.2200990 M. Bosse, R. Zlot, and P. Flick, "Zebedee: Design of a Spring-Mounted 3-D Range Sensor with Application to Mobile Mapping", IEEE Transactions on Robotics, 28(5), October 2012. [2] https://db.tt/V31Qepgj or http://dx.doi.org/10.1109/ICRA.2013.6630945 M. Bosse and R. Zlot, Place Recognition Using Keypoint Voting in Large 3D Lidar Datasets, IEEE International Conference on Robotics and Automation (ICRA), May 2013. The datasets from the video are available at http://dx.doi.org/10.4225/08/5137014E577DC LiDAR News magazine article: http://www.lidarnews.com/PDF/LiDARMagazine_VariousAuthors-CSIRO_Vol2No4.pdf A New Scientist article (with video) describing a cave mapping trip: http://www.newscientist.com/article/mg21628954.700-in-search-of-the-worlds-oldest-cave-etching.html A previous video demonstrating Zebeede can be found at: http://youtu.be/Uj9BKcnXOyo Further information: http://wiki.csiro.au/display/ASL/Zebedee Music: Blue Lights by Beat Under Control (http://creativecommons.org/licenses/by-nc-sa/1.0)
MegaMIMO: A Faster Wireless System
 
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Paper: http://dl.acm.org/citation.cfm?id=2934905&dl=ACM&coll=DL
Views: 56684 MITCSAIL
ITS Podcast Episode 44: January 2018
 
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ITS Podcast is a new publication of the IEEE Intelligent Transportation Systems Society aiming to take the ITS research and best practice to the general public in an attractive format. The goal is to offer insightful and entertaining monthly interviews with the leaders in ITS. We will introduce to anyone interested in intelligent transportation and related scientific discoveries the cutting-edge of ITS research by interviewing authors of selected papers in the ITS Transactions and the Magazine, keynote speakers at the ITS conferences, and other top ITS scientists or engineers working on hot new topics. We have a some interesting news about China, Qualcomm, Waymo, Marti and more. We are then going to listen to a book Review From Prof. Haluk Eren from Firat University. The book title is “ITS Sensors and Architectures for Traffic Management and Connected Vehicles”, and consists of 542 pages; written by Lawrence Klein. We have a summary of the ITSC 2017 conference followed by a very interesting interview from India. Keep listening.
LoRa Technology For IoT
 
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Design Of Wireless Sensor Networks For IoT Using John Tuan Pham 19 July 2018 Thesis 1. Introduction. The more growing of the world, the more high ambitious of the people for the higher quality living. Science, technology, engineering, both of them are not this cycle. In this process, we have the development of the electric, information technology and we know about Internet Of Things ( IoT). Now, there are many radio device, radio technology such as the cellular network (3G, 4G, and 5G for the near future in Viet Nam), Local Area Network - LAN ( bluetooth, Wifi), Zigbee, Sigfox.. etc. However, we can’t use cellular network or LAN for IoT systems because of high power and high service cost. IoT need connect many devices, sensors and the article want to use LoRa Technology for apllying into Wireless Sensor Network. This is the reason for choosing this topic to research. 2. Methods and technologies. - Learn theoretical content related to the topic. - Research, design, real tests for completing the thesis. 3. The main obtained results: The system of wireless sensor networks using LoRa Technology includes: 2 LoRa Node, 1 LoRa Gateway, 1 LoRa Server Cloud (Blynk Server, it’s available on the Internet) and App on the smartphone for user to monitor, alert, control. Having following functions: - Measure and send data in real time - Gateway send data to Cloud Server very quickly - Real data is on the screen of your app on your phone - Set the schedule for on/off control on Nodes - When Over safe data, notification will be sent to the app on smartphone - The database will be sent to register Email Through many kinds of research, tests, we can apply Low Power Wireless Area Network Using LoRa Technology in long distance, low power, low data rate. This Technology will be applied into Automatic Meter Reading, Home, and building automation, Wireless Alarm and Security systems, industrial monitoring and control, long-range agriculture systems, smart city. Picture the result of the topic. 4. Application field or research field: Low Power Wide Area Network For IoT, Smart City 5. Future work: The system needs to study for developing more than 2 of the Lora Nodes to transmit data to 1 Lora Gateway. Delay time during packet processing. In the future, it's interesting when we can expand the functionality of the gateway by which we can forward packets to different cloud servers. This helps to reduce the cost for dvices and server networks. 6. Keywords: LPWAN (Low Power Wide Area Network), IoT (Internet Of Things), Smart City. 7. References: [1] C. Alcaraz, P. Najera, J. Lopez, and R. Roman, “Wireless Sensor Networks and the Internet of Things: Do We Need a Complete Integration?", 1st International Workshop on the Security of the Internet of Things (SecIoT10), 2010, NICS Lab. Publications. [2] LoRa Alliance: https://lora-alliance.org [3] Technical Marketing Workgroup, “A technical overview of LoRa® and LoRaWAN™”, LoRa Alliance, November 2015. [4] Semtech Corporation, “LoRa Technology: Ecosystem, Applications and Benefits”, Published by Mobile world live, 2017. [5] I.F. Akyildiz, W. Su, Y. Sankarasubramaniam, E. Cayirci, "A Survey on Sensor Networks", IEEE Communications Magazine, August, 102-114 (2002).
Views: 76 John Pham
WatchSense: On- and Above-Skin Input Sensing through a Wearable Depth Sensor (CHI 2017)
 
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Project Page: http://handtracker.mpi-inf.mpg.de/projects/WatchSense/ CHI 2017 Paper Title: WatchSense: On- and Above-Skin Input Sensing through a Wearable Depth Sensor Authors: Srinath Sridhar, Anders Markussen, Antti Oulasvirta, Christian Theobalt, Sebastian Boring Abstract: This paper contributes a novel sensing approach to support on- and above-skin finger input for interaction on the move. WatchSense uses a depth sensor embedded in a wearable device to expand the input space to neighboring areas of skin and the space above it. Our approach addresses challenging camera-based tracking conditions, such as oblique viewing angles and occlusions. It can accurately detect fingertips, their locations, and whether they are touching the skin or hovering above it. It extends previous work that supported either mid-air or multitouch input by simultaneously supporting both. We demonstrate feasibility with a compact, wearable prototype attached to a user's forearm (simulating an integrated depth sensor). Our prototype---which runs in real-time on consumer mobile devices---enables a 3D input space on the back of the hand. We evaluated the accuracy and robustness of the approach in a user study. We also show how WatchSense increases the expressiveness of input by interweaving mid-air and multitouch for several interactive applications.
Views: 89 Christian Theobalt
Internet Of Bio NanoThings
 
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This video is based on the article "Internet Of Bio NanoThings", authored by I. F. Akyildiz, M. Pierobon, S. Balasubramaniam, and Y. Koucheryavy. It was published in the IEEE Communications Magazine (Volume 53, Issue 3) in March 2015. This is done in partial fulfillment of the course ES6125: Wireless Communication at Nanyang Technological University, Singapore. Presenters: Swarna Kamakshi Jayaraman, Janani Namashivayam
Views: 367 Swarna Jayaraman
Webinar: Urban Augmented Reality
 
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More than 53% of the world population lives in urban areas and, according to the World Bank, the trend is accelerating. By 2050 over 65% of us will live in cities. With sensors going into our buildings, transportation systems and personal communication devices, urban areas are also producing digital data at an accelerating rate. Many of us will soon be able to see and use this geo-referenced information in context with mobile Augmented Reality. In this session, we examine Urban AR drivers: how the Internet of Things, big data analytics combined with Augmented Reality will permit professionals to perform tasks and provide services more efficiently and with lower risk. City visitors and citizens will also lead richer, more enjoyable and informed lives with the assistance of AR-enabled services. In order to better understand what is required to meet these goals, we will take stock of Urban AR today. What type of city data is available and suitable for use in AR experiences? Who creates and who are the target users of urban AR experiences? Who pays for the AR-assisted urban services? Where have urban AR projects been successful? What are some of the obstacles to the development/growth of urban AR? Speaker: Christine Perey, PEREY Research & Consulting and the AR for Enterprise Alliance For more on AR visit: http://bit.ly/NdBBEy For AR events visit: http://bit.ly/1lC5QEp The IEEE Standards Association (IEEE-SA) is a leading consensus building organization that nurtures, develops and advances global technologies, through IEEE. We bring together a broad range of individuals and organizations from a wide range of technical and geographic points of origin to facilitate standards development and standards related collaboration. With collaborative thought leaders in more than 160 countries, we promote innovation, enable the creation and expansion of international markets and help protect health and public safety. Collectively, our work drives the functionality, capabilities and interoperability of a wide range of products and services that transform the way people live, work and communicate. Visit IEEE-SA Website: http://standards.ieee.org/
Sixth sense technology based home automation using Raspberry/Banana/Orange Pi Rs.12000/-
 
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Please contact us for more information: Ph: +91 9490219339 (WhatsApp/SMS text only Please) www.sooxma.com www.mycollegeproject.com [email protected] Hyderabad, India. Students will be provided with complete working hardware kit and other related documentation. We develop customised projects as per your requirements. We are specialised in developing IoT based industrial projects usinng various sensor like Temperature, Humidity, light, water level, moisture, pressure, fire, flame sensor, air pollution, gas sensors like MQ-02,MQ-03,MQ-06 etc. Alcohol sensrs, LPG gas, LDR sensor, current CT sensor, voltage sensor for solar panels, IR (infrared) sensors, Laser light sensors, Magnetic sensors like hall effect, read switch etc, tilt sensor, sound sensor, heart rate sensor, blood pressure sensor, body temperature sensor, rain water sensor, ultrasonic distance sensor, Thermisters, PIR sensor, MEMS accelerometer sensor, Digital compass, positional sensor, Direction sensors, RTC, EEPROM, iButton reader, piezo sensors, wireless power, Load cell, weight sensors, flex sensors, Flow sensors, Resistive touch screen, APR voice module, Eye blink sensor, DHT11, LM35, Speech recognition, mp3 player, Barcode reader, color sensor, Capacitive touch sensor, energy meter, Matrix keypad, SD card reader, Tachometer (speed sensor), Nextion displays, Fuel sensors, Vibration sensor, LiFi. Motors we work with: DC Motor, PMDC motors, Servo Motor, AC Motor, Series motor, Universal motors, stepper motors, geared motors, brush less motors. We work with following communication devices. GSM Modem, GPS Receiver, IoT esp8266, RFID readers (Active and Passive), Zigbee, Bluetooth receivers, WiFi transceivers, RS232 communication, RS485, CAN communication, RF Transceiver, RF 433MHz, PLCC (Power line Carrier Communication), barcode reader, finger print reader, smart card reader, USB communication, PS2 communication, DTMF, Ethernet communication, We work with PIC Microcontrollers (8bit, 16bit, 32 bit), MSP430, PIC 12F, PIC16F, PIC18F, PIC24F, PIC32F series, STM32, Arduino (Pro mini, Nano, Uno etc), AVR, ATMEGA, esp8266, 8051, 80S52, ARM, LPC2148, Raspberry Pi, Orange Pi(Lite,One,Plus etc), Nodemcu, Wemo etc. WE develop following Hardware(sensors) accessing mechanisms: Android apps, PC based applications, Web development with IoT, TCP sockets, UDP, http, remote file systems and data loggers. Domains we work with: Security, SCADA, wireless, protection, data loggers, control systems, telecommunications, education, transport, agricultural, industrial, building autommation, home automation, access control, IoT with Android apps, solar, non-conventional power generation, medical, Robotics, advertisement displays (scrolling led sign board, P10 displays, 50-50 led sign board, pixel programmable led sign board, Displays we work with: Nokia 5110, Propeller display, 16x2 LCD displays, 20x4 displays, scrolling led displays, 128x64 graphical displays, oled (spi,i2c), TFT displays, seven segment displays, Power electronics and Switching devices: MOSFET, Transistor, Power Transistor, IGBT, SCR, TRIAC, Relays etc. We also develop IEEE projects like IEEE-2016, IEEE-2017 Student projects along with modifications. Sixth sense technology based home automation. In this project we are making use of Bananapi board with camera and relays. The devices controlling is done by image processing on single board computer. We can develop similar ARM11/Raspberry/banana pi based projects as per your requirements. Please reach us at [email protected] +91 9490219339 www.mycollegeproject.com Sooxma Technologies, Hyderabad, India.
Views: 13287 Sooxma Prabhakar
Virtual Reality Design Lab demo at IEEE VR 2014
 
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Virtual Reality Design Lab at University of Minnesota
Views: 277 rustysawdust
Ubiquitous Computer Vision | David Moloney | TEDxDCU
 
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An insightful look at the future of technology. David Moloney is the Chief Technology Officer of Movidius and has a BEng in Electronic Engineering Dublin City University 1985 and PhD from Trinity College Dublin in 2010 in the area of FPGA-based HPC for Computational Fluid Dynamics. David has worked in the semiconductor industry internationally for the past 28 years with Infineon in Germany, ST Microelectronics Italy, Parthus-Ceva (Ceva-DSP) and FrontierSilicon in Ireland, before founding Movidius in 2005 with Sean Mitchell. David has 31 granted patents and numerous publications. He acts as a reviewer for IEEE communications magazine and for the EU Commission on programs such as ARTEMIS. David is a member of the EU FP7 HiPEAC NoE and collaborates on the FP7 PHEPPER and EXCESS projects as well as the forthcoming Eyes of Things (EoT) Horizon 2020 project. Follow David on Twitter: @cto_movidius This talk was given at a TEDx event using the TED conference format but independently organized by a local community. Learn more at http://ted.com/tedx
Views: 8318 TEDx Talks
2011  IEEE ROBIO  Conference Presentation
 
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2011 IEEE ROBIO Conference Presentation-Optimal Design of a Spatial Four Cable Driven Parallel Manipulator
Views: 1605 Arian Bahrami
Multi-Core Embedded Wireless Sensor Networks Architecture and Applications| IEEE | IEEE projects
 
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Mob: 9985613074, 7396708351 Technological advancements in the silicon industry, as predicted by Moore's law, have enabled integration of billions of transistors on a single chip. To exploit this high transistor density for high performance, embedded systems are undergoing a transition from single-core to multi-core. Although a majority of embedded wireless sensor networks (EWSNs) consist of single-core embedded sensor nodes, multi-core embedded sensor nodes are envisioned to burgeon in selected application domains that require complex in-network processing of the sensed data. In this paper, we propose an architecture for heterogeneous hierarchical multi-core embedded wireless sensor networks (MCEWSNs) as well as an architecture for multi-core embedded sensor nodes used in MCEWSNs. We elaborate several compute-intensive tasks performed by sensor networks and application domains that would especially benefit from multi-core embedded sensor nodes. This paper also investigates the feasibility of two multi-core architectural paradigms-symmetric multiprocessors (SMPs) and tiled many-core architectures (TMAs)-for MCEWSNs. We compare and analyze the performance of an SMP (an Intel-based SMP) and a TMA (Tilera's TILEPro64) based on a parallelized information fusion application for various performance metrics (e.g., runtime, speedup, efficiency, cost, and performance per watt). Results reveal that TMAs exploit data locality effectively and are more suitable for MCEWSN applications that require integer manipulation of sensor data, such as information fusion, and have little or no communication between the parallelized tasks. To demonstrate the practical relevance of MCEWSNs, this paper also discusses several state-of-the-art multi-core embedded sensor node prototypes developed in academia and industry. We further discuss research challenges and future research directions for MCEWSNs. Site: www.newieeeprojects.com Email: [email protected]
Views: 101 Renown Technologies
Karl Henrik Johansson, Collaborative Road Freight Transport
 
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Bio: Karl H. Johansson is Director of the ACCESS Linnaeus Centre and Professor at the School of Electrical Engineering, KTH Royal Institute of Technology, Sweden. He heads the Stockholm Strategic Research Area ICT The Next Generation. He received MSc and PhD degrees in Electrical Engineering from Lund University. He has held visiting positions at UC Berkeley, California Institute of Technology, Nanyang Technological University, andInstitute of Advanced Studies Hong Kong University of Science and Technology. His research interests are in networked control systems, cyber-physical systems, and applications in transportation, energy, and automation systems. He is a member of the IEEE Control Systems Society Board of Governors and the European Control Association Council. He is past Chair of the IFAC Technical Committee on Networked Systems. He has been on the Editorial Boards of Automatica, IEEE Transactions on Automatic Control, and IET Control Theory and Applications. He is currently a Senior Editor of IEEE Transactions on Control of Network Systems and Associate Editor of European Journal of Control. He has been Guest Editor for two special issues of IEEE Transactions on Automatic Control and one of IEEE Control Systems Magazine. He was the General Chair of the ACM/IEEE Cyber-Physical Systems Week 2010 in Stockholm and IPC Chair of many conferences. He received the Best Paper Award of the IEEE International Conference on Mobile Ad-hoc and Sensor Systems in 2009 and the Best Theory Paper Award of the World Congress on Intelligent Control and Automation in 2014. In 2009 he was awarded Wallenberg Scholar, as one of the first ten scholars from all sciences, by the Knut and Alice Wallenberg Foundation. He has held a five-year Senior Researcher Position with the Swedish Research Council. He was awarded Future Research Leader from the Swedish Foundation for Strategic Research in 2005. He received the triennial Young Author Prize from IFAC in 1996 and the Peccei Award from the International Institute of System Analysis, Austria, in 1993. He received Young Researcher Awards from Scania in 1996 and from Ericsson in 1998 and 1999. He is a Fellow of the IEEE.
Views: 461 Johannesberg Summit
Privacy Protection for Wireless Medical Sensor Data | Final year Projects 2016
 
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Including Packages ======================= * Base Paper * Complete Source Code * Complete Documentation * Complete Presentation Slides * Flow Diagram * Database File * Screenshots * Execution Procedure * Readme File * Addons * Video Tutorials * Supporting Softwares Specialization ======================= * 24/7 Support * Ticketing System * Voice Conference * Video On Demand * * Remote Connectivity * * Code Customization ** * Document Customization ** * Live Chat Support * Toll Free Support * Call Us:+91 967-774-8277, +91 967-775-1577, +91 958-553-3547 Shop Now @ http://clickmyproject.com Get Discount @ https://goo.gl/lGybbe Chat Now @ http://goo.gl/snglrO Visit Our Channel: http://www.youtube.com/clickmyproject Mail Us: [email protected]
Views: 672 Clickmyproject
The death of patents and what comes after: Alicia Gibb at TEDxStockholm
 
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Alicia Gibb got her start as a technologist from her combination in backgrounds including: informatics and library science, a belief system of freedom of information, inspiration from art and design, and a passion for hardware hacking. Alicia has worked between the crossroads of art and electronics for the past nine years, and has worked for the open source hardware community for the past three. She currently founded and is running the Open Source Hardware Association, an organization to educate and promote building and using open source hardware of all types. In her spare time, Alicia is starting an open source hardware company specific to education. Previous to becoming an advocate and an entrepreneur, Alicia was a researcher and prototyper at Bug Labs where she ran the academic research program and the Test Kitchen, an open R&D Lab. Her projects centered around developing lightweight additions to the BUG platform, as well as a sensor-based data collection modules. She is a member of NYCResistor, co-chair of the Open Hardware Summit, and a member of the advisory board for Linux Journal. She holds a degree in art education, a M.S. in Art History and a M.L.I.S. in Information Science from Pratt Institute. She is self-taught in electronics. Her electronics work has appeared in Wired magazine, IEEE Spectrum, Hackaday and the New York Times. When Alicia is not researching at the crossroads of open technology and innovation she is prototyping artwork that twitches, blinks, and might even be tasty to eat. In the spirit of ideas worth spreading, TEDx is a program of local, self-organized events that bring people together to share a TED-like experience. At a TEDx event, TEDTalks video and live speakers combine to spark deep discussion and connection in a small group. These local, self-organized events are branded TEDx, where x = independently organized TED event. The TED Conference provides general guidance for the TEDx program, but individual TEDx events are self-organized.* (*Subject to certain rules and regulations)
Views: 6046 TEDx Talks
Mobile mapping indoors and outdoors with Zebedee
 
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Zebedee is a handheld 3D mobile mapping system developed at CSIRO. The primary sensor is a 2D Hokuyo lidar scanner which measures the distances to surfaces in the environment (43200 samples per second). A simple spring mechanism is used to convert the natural motion of the operator into scanning sweeps that result in a 3D field of view. CSIRO's specialized software interprets the raw data to estimate the motion of the scanner and generate a 3D point cloud model of the environment. As seen in the video, the system is capable of large-scale mapping of a wide variety of environments ranging from built to natural scenes. Typically, the time it takes to map an environment is the time it takes to walk through it. For visualization purposes, the point clouds shown in this video contain only 9 percent of the points from the full point cloud. Video transcript available here: http://www.csiro.au/news/transcripts/YouTubeTranscripts/2013/Jan/Mobile_mapping_with_Zebedee.html A previous video demonstrating Zebeede can be found at: http://youtu.be/Uj9BKcnXOyo A journal article describing the Zebedee system is available at: http://db.tt/55GqGM9K or http://dx.doi.org/10.1109/TRO.2012.2200990 M. Bosse, R. Zlot, and P. Flick, "Zebedee: Design of a Spring-Mounted 3-D Range Sensor with Application to Mobile Mapping", IEEE Transactions on Robotics, 28(5), October 2012. LiDAR News magazine article: http://www.lidarnews.com/PDF/LiDARMagazine_VariousAuthors-CSIRO_Vol2No4.pdf A New Scientist article (with video) describing a cave mapping trip: http://www.newscientist.com/article/mg21628954.700-in-search-of-the-worlds-oldest-cave-etching.html
Views: 6865 CSIRO
GSM and GPS based Vehicle Accident Detection System using PIC16F877 microcontroller
 
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Raspberry Pi 3 - GPS Tracking - Location Tracker - Tracking Device - Car Tracking GPS - Live Tracking Please Subscribe For More Project Videos --► http://bit.ly/29vPrS9 Slice--►http://www.svskits.in/ blog --►http://www.svskit.com/ site --►http://www.svsembedded.com/ -------------------------------------------------------------------------------- 1. GSM and GPS based Vehicle Accident Detection System using PIC16F877 microcontroller, 2. Arduino Based Accident Detection and Messaging System using GSM, 3. VEHICLE-ACCIDENT-DETECTION-USING-GSM-AND-GPS-MODEM, 4. Automatic Vehicle Accident Detection and Messaging System Using, 5. Accident messaging system using GPS,GSM and MEMS - SlideShare, 6. Accident Detection System by Using Navigation Devices - IJIRCCE, 7. Smart Car System Using Sensor, GPS and GSM - ijeetc.com, 8. Wireless Accident Information System Using GSM and GPS, 9. Detection System using PIC16F877 microcontroller, 10. automatic vehicle accident detection and messaging system using gsm and gps modem, 11. vehicle accident detection with gps and gsm modem ppt, 12. vehicle accident detection with gps and gsm modem circuit diagram, 13. accident detection using gps and gsm project report pdf, 14. accident detection vibration sensor, 15. accident detection system project report, 16. accident detection system using mobile phones ppt, 17. automatic accident detection system, 18. Accident Notification System by using Two Modems GSM and GPS, 19. Car Authentication and Accident Intimation System Using GPS and GSM, 20. Automatic Accident Notification System using GPS & GSM with - IRET, 21. Intelligent Vehicle Control Using Wireless Embedded System in, 22. Advanced Embedded System of Vehicle Accident Detection and, 23. a gsm & gps based system for automatic accident notification - IJIRAE, 24. 40+ GSM Based Projects for Engineering Students - Electronics Hub, 25. Automatic Vehicle Accident Detection And Messaging System Using, 26. Vehicle Accident Automatic Detection Using MEMS, GSM, GPS, 27. WIRELESS ACCIDENT DETECTION SYSTEM USING GPS AND GSM, 28. IOT Based Automatic Vehicle Accident Detection and Tracking System, 29. IoT Based Vehicle Accident Detection and Tracking System Using, 30. Automatic vehicle accident detection system using GPS and ZigBee, 31. Vehicle Accident Detection Using MEMS,GSM,GPS and Raspberry Pi, 32. Automatic vehicle accident detection and messaging system using, 33. MEMS based vehicle accident detection and alert system using gsm, 34. the design of the scene of the accident alarm system, 35. Accident Detect and Messaging System using GSM and GPS, 36. Final Year Projects | AUTOMATIC ACCIDENT DETECTION AND, 37. automatic vehicle locking tracking using gps gsm technology, 38. GPS, GSM & Accelerometer Based Accident Alarm System, 39. Vehicle Accident Alert System using PIC Microcontroller, 40. Raspberry Pi 3 GPS Tracking System, 41. Vehicle Accident Prevention for Automobiles with Eyeblink, Alcohol, 42. Vehicle Theft Detection with Remote Engine Locking using GPS,GSM, 43. CAR SECURITY AND TRACKING SYSTEM using gsm & Gps - PART1, 44. GSM based accident detection system, 45. ACCIDENT DETECTION USING GSM,GPS AND MEMS 46. DESIGN AND IMPLEMENTATION OF IOT BASED GPS-GPRS, 47. Automatic Accident Detection and Ambulance Rescue System, 48. Automatic Accident Alert and Safety System using Embedded, 49. Accident alert and vehicle tracking system - Rickey's World of, 50. Automatic vehicle over speed, accident alert and locator system for, 51. GSM and GPS based Vehicle Accident Detection System using, 52. Smart Alert System For Vehicles - IOSR, 53. IEEE PROJECT TITLES DOWNLOAD | Latest IEEE Titles 2016-2017, 54. Latest 2016 IEEE Projects | 2017 IEEE Project Titles, 55. IEEE 2016-17 EEE Project Titles - JPInfotech - IEEE Projects in Chennai, 56. IEEE project titles 2016 | IEEE Projects, 57. IEEE Projects, 2015-2016 IEEE Projects for Final Year Students, 58. Latest List of Major Projects for ECE Students in 2016, 59. Latest 2016- 2017 IEEE Projects | 2016 Final Year Project Titles, 60. Embedded Systems Projects Ideas for Engineering Students - svsembedded, 61. IEEE 2016 embedded system svsprojects | ieee final year projects, 62. Internet Of Things Training In Hyderabad | IOT Training In Hyderabad, 63. IoT Training Course, Best IoT Training Institute Hyderabad, India, 64. Internet of Things India | Internet of Everything India | IoT - Axelta | Home, 65. Top 10 IoT Training Institutes in India – 2016 - Analytics India Magazine, 66. IoT Internet of Things Classroom Training in Ameerpet Hyderabad, 67. Internet of Things Training | IoT Training | IoT Academy - Axelta, 68. IoT Training in India | Internet of Things training in India , 71. IoT Training | Internet of Things Training | IoT Online Training | IoT,
Views: 13606 svsembedded
Andrea Goldsmith - To Infinity and Beyond: New Frontiers in Wireless Information Theory
 
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2014 ISIT Plenary Lecture To Infinity and Beyond: New Frontiers in Wireless Information Theory Andrea Goldsmith Stanford University Abstract: Although wireless information theory has been declared dead many times over, the field today is thriving with abundant open problems of significant theoretical and practical importance. This talk will explore our recent results on wireless information theory that go towards infinity in the number of users, and back from infinity in other dimensions. In particular, we will describe our work on achievable rate regions for single-hop networks with any number of users, obtained through user virtualization followed by coding via a graphical Markov model. The resulting achievable rate regions meet or exceed all existing rate regions for any single-hop network, including those of interference channels, broadcast channels, and cognitive radio channels. Moving back from infinity, we examine the implications of finite delay, energy, feedback, and sampling with a particular focus on our results unveiling rate-distortion theory and channel capacity for sub-Nyquist sampled sources and channels. We end the talk describing additional dreams and challenges in wireless information theory, including the application of information-theoretic analysis tools to explore new frontiers in biology and neuroscience. Biography: Andrea Goldsmith is the Stephen Harris professor in the School of Engineering and a professor of Electrical Engineering at Stanford University. She was previously on the faculty of Electrical Engineering at Caltech. She co-founded and served as CTO of Accelera, Inc. and of Quantenna Communications, Inc. and has also held industry positions at Maxim Technologies, Memorylink Corporation, and AT&T Bell Laboratories. Dr. Goldsmith is a Fellow of the IEEE and of Stanford, and she has received several awards for her work, including the IEEE Communications Society and Information Theory Society joint paper award, the IEEE Communications Society Best Tutorial Paper Award, the National Academy of Engineering Gilbreth Lecture Award, the IEEE ComSoc Communications Theory Technical Achievement Award, the IEEE ComSoc Wireless Communications Technical Achievement Award, the Alfred P. Sloan Fellowship, and the Silicon Valley/San Jose Business Journal's Women of Influence Award. She is author of the book "Wireless Communications" and co-author of the books "MIMO Wireless Communications" and "Principles of Cognitive Radio," all published by Cambridge University Press. She received the B.S., M.S. and Ph.D. degrees in Electrical Engineering from U.C. Berkeley. Dr. Goldsmith has served as editor for the IEEE Transactions on Information Theory, the Journal on Foundations and Trends in Communications and Information Theory and in Networks, the IEEE Transactions on Communications, and the IEEE Wireless Communications Magazine as well as on the Steering Committee for the IEEE Transactions on Wireless Communications. She participates actively in committees and conference organization for the IEEE Information Theory and Communications Societies and has served on the Board of Governors for both societies. She has also been a Distinguished Lecturer for both societies, served as President of the IEEE Information Theory Society in 2009, founded and chaired the student committee of the IEEE Information Theory Society, and chaired the Emerging Technology Committee of the IEEE Communications Society. At Stanford she received the inaugural University Postdoc Mentoring Award and has been active in committees to innovate and revise both graduate and undergraduate education university-wide. She served as Chair of Stanford's Faculty Senate in 2009 and currently serves on its Faculty Senate and on its Budget Group.
Solving the Water Crisis with Artificial Intelligence | Prateek Joshi | TEDxHarkerSchool
 
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What is the best way to address a global water crisis? Cloud computing and artificial intelligence researcher Prateek Joshi discusses how we can use artificial intelligence in a data-driven economy to address rising water prices, greater demand, and scarcer supply to improve water access on a global scale. Prateek Joshi is an Artificial Intelligence researcher and a published author of 3 books. He is the founder and CEO of Pluto AI, a Silicon Valley startup building an analytics platform for water management based on Deep Learning. His work in this field has led to patents, tech demos, and research papers at major IEEE conferences. Prateek actively blogs at www.prateekjoshi.com on topics such as Artificial Intelligence, Python programming, and abstract mathematics. His blog has received more than 1 million page views from 200+ countries. Prateek has been an invited speaker at tech and entrepreneurship conferences, and he’s also been featured as a guest author in prominent tech magazines. He graduated from the University of Southern California, where he was elected to become a member of the Honors Society and an ambassador for the school of engineering, with a Masters degree specializing in Artificial Intelligence. You can learn more about him on his website at www.prateekj.com. This talk was given at a TEDx event using the TED conference format but independently organized by a local community. Learn more at http://ted.com/tedx
Views: 3359 TEDx Talks
Irrigation Projects: WIRELESS SENSOR NETWORK BASED REMOTE MONITORING SYSTEM FOR AGRICULTURE
 
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Agricultural Projects | Irrigation Projects | soil moisture sensor. Please Subscribe For More Project Videos► http://bit.ly/29vPrS9 Shop my favorite online store Slice--►http://www.svskits.in/ blog --►http://www.svskit.com/ site --►http://www.svsembedded.com/ 1. Irrigation Projects: WIRELESS SENSOR NETWORK BASED REMOTE MONITORING SYSTEM FOR AGRICULTURE 2. Wireless Sensor Based Remote Monitoring System for Agriculture Using ZigBee and GPS 3. wireless sensor network connected to a central node using ZigBee 4. Irrigation System Using a Wireless Sensor Network and GPRS 5. Automation, Internet, Irrigation system, Wireless Sensor Network (WSN) 6. Wireless Monitoring of Soil Moisture, Temperature & Humidity 7. develop a smart wireless sensor network (WSN) for an agricultural 8. a remote monitoring system using Zigbee 9. GSM-ZigBee based remote control and monitoring system with automatic irrigation system 10. Latest Agriculture & Irrigation Based Projects for Final Year IEEE 11. Wireless Sensor Based Remote Controlled Agriculture Monitoring 12. Agriculture Projects & Irrigation Projects - IRRIGATION BASED 13. LOW COST Agricultural IRRIGATION BASED PROJECTS - LinkedIn 14. Application of Wireless Sensor Networks for Greenhouse Parameter 15. automatic irrigation system for agriculture field using wireless sensor 16. Wiireless Sensor Project - WSN projects for MTech ME 2015 17. Implementation of Wireless Sensor Network for Real Time Monitoring 18. Sensor-based M2M Agriculture Monitoring Systems for Developing 19. Automatic Control of Drip Irrigation System & Monitoring Of Soil 20. Implementation of Wireless Sensor Network for Automatic Irrigation 21. a low-cost remote monitoring system for agricultural ecosystems. 22. Automatic irrigation system using zigbee 23. 40+ Sensor Based Projects for Engineering Students - Electronics Hub 24. A Survey on Wireless Sensor Network based Technologies 25. A Test-bed on Real-time Monitoring of Agricultural 26. automated irrigation system using a wireless sensor network and gprs module ppt 27. automated irrigation system project report 28. wireless sensor networks in agriculture ppt 29. wireless sensor networks in agricultural applications 30. automatic irrigation system using soil moisture sensor project report 31. weather monitoring system project report 32. advanced remote monitoring of a crop in agriculture using wireless 33. gsm and wireless sensor network based smart automated irrigation 34. WSN Based Closed Loop Automatic Irrigation System 35. Wireless Sensor Networks and GSM technology. 36. Wireless Sensor Network Based Irrigation Management System 37. Smart Wireless Sensor Network for Monitoring an Agricultural 38. Design & Implementation of Wireless Transceiver for Data 39. Innovative Gsm Bluetooth based Remote Controlled Embedded 40. Remote Irrigation and Monitoring System Using GSM Technology 41. Kisaan Drone: Pesticides spraying drone for Agriculture applications 42. Automated irrigation system using a wireless sensor network and GPRS 43. GSM Based Remote Monitoring Intelligent System 44. Irrigation Projects: WIRELESS SENSOR NETWORK BASED REMOTE 45. Android Based Water Deployment System for Irrigation using WSN 46. Online farming based on embedded systems and wireless sensor 47. WIRELESS SENSOR BASED REMOTE MONITORING SYSTEM 48. Latest Wireless Sensor Networks Projects for 2015 49. Zigbee based complete solution for irrigation system: a review 50. Remote Sensing and Control of an Irrigation System 51. An Economical Wireless Sensor Network Based Solution for Precision 52. ECE Projects - Embedded Systems Live Projects for Engineering 53. smart irrigation system through wireless sensor networks 54. Wireless Farming: a mobile and Wireless Sensor Network based 55. Precision Irrigation: Sensor Network Based Irrigation - InTech 56. Monitoring of soil parameters for effective irrigation using Wireless 57. A Wireless Sensor Network Solution for Precision Agriculture 58. Sensor Network based Automatic Irrigation Management System 59. Design and Implementation of Wireless Sensor Network 60. Distributed Monitoring Systems for Agriculture based on Wireless
Views: 15863 svsembedded
HDC NOTE 5 PRO - Samung Galaxy Note 5 Clone 1:1
 
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Hdc Note 5 Pro is the continue of the HDC series of Samsung Replicas! ---FINAL PRICE 120€---- Buy here: http://chimpato.com/shop/android-phones/hdc-note-5-pro-samsung-note-5-clone/ Site: http://Chimpato.com You can Buy it from Chimpato with 5% Discount entering coupon code: facebookchimpato *Operating System: Android 5.1 Lollipop *Processor: MTK6582 Quad Core *Built-in Memory: 1GB Ram (2GB is optional), 8GB ROM (16GB/ 32GB is optional) *Screen Size: 5.7 inch HD IPS touchscreen *Display resolution: 1280*720 pixel *Camera Resolution: 16.0MP rear camera + 5.0MP front camera *Battery: Built-in Li-on battery (3050mAh) *Standby Time: 150-200 hours *GPS: GPS/A-GPS (Built-in GPS chipset) *Bluetooth: Yes, 4.0 *WLan: Wi-Fi IEEE 802.11 b/g/n *G-sensor: Yes *L-sensor: Yes *D-sensor: Yes HDC Note 5 Pro- Samsung Note 5 Clone has installed android 5.1 Lollipop, and carries with MTK6582 Quad Core processor, 2GB Ram, 32GB Rom.
Views: 5181 Chimpato Store
Z-Edge T4 Double Dash Cam Demo & Review on Everyman Driver
 
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Z-EDGE T4 Dash Cam Link: https://amzn.to/2Tn9pCM Z-EDGE T4 DUAL LENS DASH CAMERA WITH 4.0” TOUCH SCREEN: ONE-HAND OPERATION TOUCH SCREEN: Sensitive Touch Screen, Operate with a finger. makes each operation more effortless and responsive, such as navigating the menus and settings, locking the current video, CHOOSE FROM 4 PRESET MODES: Drive - Optimized for regular use/ Scenic - Longer video clips for easier video post-processing/WDR - For better light balance, great for bright days or nighttime driving/Park- Increases G-sensor sensitivity and battery efficiency for monitoring your parked vehicle. Z-EDGE T4 Dash Cam Link: https://amzn.to/2Tn9pCM YOUR ON-THE-WAY WITNESS: Featuring dual lenses and an easy-to-control touch screen, this dash camera ensures simultaneous recording front and rear, both in Full HD 1080P. Records powerful evidence of any accident involving your vehicle that supports the facts in case of any road incident. Compact design makes it easy to stick directly to your windshield for optimal field-of-view. Z-EDGE T4 Dash Cam Link: https://amzn.to/2Tn9pCM DUAL 1080P RECORDING, NEVER MISS A LICENSE PLATE: Both front and rear cameras of the T4 Dashcam can record in Full HD 1920x1080P at 30FPS. Record in stunning WQHD 2560x1440P at 30FPS with the rear camera disconnected. The T4 can clearly capture license plates as well as road signs. A 6 layer glass lens and powerful imaging processor ensure more details are captured. Packed with 4.0 inch scratch-resistant LCD display, PIP mode supported, ensures clear and easy playback. Z-EDGE T4 Dash Cam Link: https://amzn.to/2Tn9pCM SUPER CLEAR NIGHT VISION WITH WDR TECHNOLOGY: Wide Dynamic Range (WDR) technology compensates for light/dark spots and balances exposure, this ensures no overexposure during the day and brings greater clarity at night. It can also restore the true colors of objects for a fuller picture. Car license plates can be easily captured at night. Ensures the clear footage and images you need to record driving at night. Z-EDGE T4 Dash Cam Link: https://amzn.to/2Tn9pCM 155° WIDE ANGLE LENS, FULL 4 LANES VIEW: Featuring a 155° wide viewing lens which helps captures more of the road around you. This ensures a panoramic recording that covers 4 lanes of the road and your surroundings. Never miss an event ahead, beside or to the rear of your vehicle while minimizing distortion. The T4 dash camera is meant to record evidence of any incident involving your vehicle, or even just record some nice scenery on along the way. Shop New Vehicles In Your Zip Code: http://bit.ly/2CYZxuL Car Accessories & Supplies: Best Selling Auto Parts: https://amzn.to/2CQmxLz Performance Auto Parts: https://amzn.to/2Clupnn Automotive Car Car Products: https://amzn.to/2q69Eot Exterior Accessories: https://amzn.to/2pXxLW7 Interior Accessories: https://amzn.to/2pZ3TJ9 RV Parts &d Accessories: https://amzn.to/2CQgF4P Tools & Equipment: https://amzn.to/2ymITk4 Wheels & Tires: https://amzn.to/2NMv9DP Light & Lighting: https://amzn.to/2RY4kQr Waterproof Car Garbage Bin: https://amzn.to/2pKtSUm Car Seat Gap Organizer: https://amzn.to/2QEEL5I Lexol Leather Cleaner: https://amzn.to/2zLQ5aD Clip-on Polarized Driving Sunglasses: http://amzn.to/2jWAlGK Tile Mate - Key Finder: https://amzn.to/2xRV6wC Canary Car Security Camera: https://amzn.to/2Otk9Ql KNIGHT VISOR Glasses: https://amzn.to/2r7ln6W In-Vehicle Trash Bin: https://amzn.to/2E04WlZ Weathertech DigitalFit Floorliner: https://amzn.to/2IB1gWo Car Seat Protector Kick Mat: http://amzn.to/2CDc6q6 GoPro HERO3+: Silver Edition: http://amzn.to/2AlPfzz GoPro Suction Cup: http://amzn.to/2yArXbV Sony 4K HD Handycam: http://amzn.to/2Aoiqlq Manfrotto Compact Action Tripod: http://amzn.to/2yBxf77 Fat Gecko Camera Mount: http://amzn.to/2AmreIu Sennheiser Wireless Microphone: http://amzn.to/2y87U0f Universal iPhone Camera Lens Kit: http://amzn.to/2yAEbRV JOBY GorillaPod TriPod: http://amzn.to/2Anr7MR Nikon D3000 10.2MP Digital SLR: http://amzn.to/2AmrUO2 Connect with me on my other platforms too: Facebook: http://bit.ly/2zAbq7Y Twitter: http://bit.ly/2h9GH6e Instagram: http://bit.ly/2zmp5wt Website: http://www.everymandriver.com/ New videos every week, SUBSCRIBE here: http://bit.ly/2zAUz4K
Views: 1175 Everyman Driver
Automatic Intelligent Plant Watering System Using Arduino
 
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1. Automatic Intelligent Plant Watering System Using Arduino, 2. Automatic Intelligent Plant Irrigation System using Arduino and GSM, 3. Arduino based Automatic Plant Irrigation System with Message Alert, 4. Arduino Based Automatic Plant Watering System – IJARCSSE, 5. Automatic Plant Watering System with Arduino - Arduino Project Hub, 6. Automatic Intelligent Plant Watering System Project Working, 7. Automatic Plant Watering System | Full Circuit With Source Code, 8. Automatic Plant Watering System Using Arduino - C# Corner, 9. Automatic Plant Watering and Soil Moisture Sensing: 8 Steps, 10. Arduino Automatic Watering System for Plants Sprinkler: 7 Steps, 11. automatic plant watering system project report, 12. automatic plant watering system depending on soil condition, 13. automatic irrigation system using soil moisture sensor, 14. automatic plant watering system mini project pdf, 15. automatic irrigation system using arduino ppt, 16. automatic irrigation system using arduino uno, 17. automatic plant watering system pdf, 18. arduino drip irrigation, 19. Arduino based plant watering system using Soil Moisture Sensors, 20. Smart Water Irrigation System using Gsm and ARDUINO, 21. Automatic Intelligent Plant Watering System Using Arduino - STAMP3, 22. Automatic Plant Watering System | Hackaday.io, 23. Intelligent Automatic Plant Irrigation System, 24. Smart Irrigation System – IOSR, 25. Automatic Plant Irrigation System Project Circuit Diagram, 26. A control system in an intelligent farming by using arduino technology, 27. Garduino: Geek Gardening with Arduino | Make: - Make Magazine, 28. Arduino based plant watering system using Soil Moisture Sensors, 29. Smart Water Irrigation System using Gsm and ARDUINO, 30. Automatic Irrigation System using Soil Moisture Sensor, 31. A smart Plant watering system using INTERNET OF THINGS, 32. AUTOMATIC IRRIGATION SYSTEM OF WATER MONITORING AND CONTROLLING, 33. Arduino Automatic Watering System For Plants, 34. Agriculture Projects: AUTOMATIC IRRIGATION WATER SUPPLY, 35. Soil Moisture And Conductivity Sensor Based Intelligent Irrigation, 36. Temperature ,Humidity Indicator Control using Arduino, 37. intelligent automatic plant irrigation system, 38. Intelligent Plant Care with the Biom Smart Flowerpot, 39. Arduino Garden Controller - Automatic Watering and Data Logging, 40. Automatic Irrigation System Without Microcontroller, 41. Testing The arduino automated Irrigation system, 42. Industrial Device Switching through RF & Arduino, 43. Solar-powered smart watering system promises battery-free , 44. Automatic plant irrigation system with dry / wet soil Automatic, 45. Best Wifi Plant Watering System | 2017 Devices and Sensor Guide, 46. arduino uno based automatic plant watering system – IJSRMS, 47. design and implementation of automatic plant watering system, 48. automatic intelligent plant watering system circuit diagram, 49. Automatic Intelligent Plant Irrigation System Using Arduino And Gsm, 50. design and implementation of an automatic irrigation system, 51. Automatic Intelligent Plant Irrigation System Using Arduino And Gsm, 52. Soil Moisture and Temperature sensor based intelligent irrigation, 53. Intelligent Plant Watering System for Rural Farmers – WorldComp, 54. EMBEDDED PROJECT IOT, 55. Security in Real World IoT Projects, 56. BIG IoT Project Video Presentation, 57. iot - IoT projects- IOT Projects - IOT Based Projects, 58. IOT Projects : Patient Health Monitoring System Using Raspberry Pi, 59. Simple IoT Project : Electric Lamp part , 60. IOT Based Projects: Women safety device using internet of things, 61. The IOT Model House - Powered by PubNub, 62. AWS IoT project: Select language & tools & set up a development, 63. DIY World's Smallest IoT project| IoT button | First Giveaway, 64. Tools review for your first IOT project | Internet of Things, 65. IoT dev with Arduino - final project - smart home, 66. 100+ Ultimate List of IOT Projects For Engineering Students, 67. Latest IOT Projects Ideas & Topics | svsProjects, 68. World's Top 20 IoT Projects for The Internet of Things Development, 69. Internet of Things (IoT) Projects | 2017 Ideas and Example DIY Projects 70. Get new IOT Projects Ideas & Training, IEEE Internet Of Things (IoT), 71. IOT Projects for B.Tech and M.Tech Engineering Students – ElProCus, 72. 5 Awesome Internet of Things Project Ideas | element14 | Internet of , 73. Latest IOT Projects For Engineering Students -2016 - Edgefx Kits, 74. 132 iot Projects - Arduino Project Hub - Arduino Create, 75. 2016-2017 Final Year Projects Internet of Things « Elysium, 76. iot projects for cse students, 77. iot based projects for ece, 78. iot projects using Arduino, 79. iot mini projects, 80. iot projects ieee, 81. iot projects for beginners, 82. iot projects using raspberry pi,
Views: 27174 svsembedded
Examination room guide using RFID and FINGER PRINT for the jumbling system based EXAMS
 
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1. Examination room guide using RFID and FINGER PRINT for the jumbling system based EXAMS 2. Examination room guide using RFID for the jumbling system 3. ARDUINO BASED IEEE PROJECTS 2016 FOR ECE - FINAL YEAR 4. EXAMINATION ROOM GUIDE USING RFID FOR THE JUMBLING 5. BE ECE-EEE IEEE EMBEDDED PROJECTS - 2016 | BITLING 6. Embedded System Projects | 1000 Projects 7. ckt diagram of examination jumbling room guide by using rfid 8. B.Tech Embedded Systems 2014-15 Projects | 1000 Projects 9. Examination room guide using RFID and FINGER PRINT 10. BIOMETRIC FINGER PRINT BASED ELECTRONIC VOTING SYSTEM 11. IEEE 2016 VLSI FREQUENCY BOOST JITTER REDUCTION 12. Person Identification using Fingerprint technology 13. Latest 2016-2017 IEEE Projects/2016 Final year Projects Titles/ece 14. RFID PROJECTS FOR COLLEGE STUDENTS 15. RFID PROJECTS FOR ELECTRONIC STUDENTS 16. IEEE based final year projects list 17. IEEE Projects in Bangalore-IEEE Projects | IEEE Academic Projects 18. BEST EMBEDDED PROJECTS IN HYDERABAD 19. B.Tech & M.Tech Projects in Hyderabad - Welcome To svskits 20. 2017 IEEE Projects EMBEDDED 2017 IEEE Paper 21. Zigbee Based Wireless Notice Board - World News 22. Latest 2015 ieee projects 2016 final year project titles 23. GSM, GPS, ZIGBEE, RFID, ROBOTICS, BLUETOOTH, VOICE BASED embedded 24. gsm-gps-zigbee-rfid-robotics-bluetooth-voice-based-embedded 25. best embedded projects ideas for engineering students 26. Rfid e-rationcard using finger print authentication and image 27. Biometric Cloud-Based Ration Card System Using RFID and GSM 28. Online Ration Card System by using RFID and Biometrics 29. Multi-Modality Biometric Assisted Smart Card Based Ration 30. fingerprint based ration card system - Seminar Topics & Project Ideas 31. RFID Based Ration Card ECE Final Year Project | 1000 Projects 32. Automatic Ration Material Distributions Based on GSM and RFID 33. RFID Based Automatic Ration Selling System 34. BIOMETRIC DEVICE USING SMART CARD IN PUBLIC 35. Smart Card based e-Public Distribution System 36. smart ration distribution system using rfid 37. Automation in Ration Product Distribution 38. RFID BASED RATION CARD 39. Public Distribution Transformation 40. e-Ration Shop - International Journal of Computer Applications 41. A Smart Public Ration Distribution System 42. zigbee, rfid, blue tooth, wireless 43. Smart Ration Distribution and Controlling 44. RFID Based Ration Card,Greater Noida,Uttar Pradesh,India, 45. Multi-Modality Biometric Assisted Smart Card Based Ration 46. smart card based material distribution using rfid & gsm 47. IEEE Projects in Embedded Systems - Scribd
Views: 5816 svsembedded
Arduino amperage sensor explained
 
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Explaining my Arduino amperage ct sensor
Views: 1322 john8675309tm
UCSD IEEE Robomagellan: Object Avoidance
 
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The bot avoids Omeed, the camera man. The bot is controlled by a Chumby and detects objects using the SRF08 Ultrasonic Range Finders. The chases is the Traxxas Emaxx RC truck.
Views: 149 Michael Ortiz
New Products 2/1/2017
 
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Mini USB Microphone (0:12) https://www.adafruit.com/products/3367?utm_source=youtube&utm_medium=videodescrip&utm_campaign=newproducts Mini External USB Stereo Speaker (1:13) https://www.adafruit.com/products/3369?utm_source=youtube&utm_medium=videodescrip&utm_campaign=newproducts HDMI to RCA Audio and NTSC or PAL Video Adapter (2:37) https://www.adafruit.com/products/3365?utm_source=youtube&utm_medium=videodescrip&utm_campaign=newproducts Adafruit Ultimate GPS Breakout - 66 channel w/10 Hz updates - Version 3 (4:09) https://www.adafruit.com/products/746?utm_source=youtube&utm_medium=videodescrip&utm_campaign=newproducts PiJack Ethernet HAT for Pi Zero (5:55) https://www.adafruit.com/products/3374?utm_source=youtube&utm_medium=videodescrip&utm_campaign=newproducts 4.3" LCD Capacitive Touchscreen Display Cape for BeagleBone (7:05) https://www.adafruit.com/products/3396?utm_source=youtube&utm_medium=videodescrip&utm_campaign=newproducts Adafruit 9-DOF Accel/Mag/Gyro+Temp Breakout Board - LSM9DS1 (9:18) https://www.adafruit.com/products/3387?utm_source=youtube&utm_medium=videodescrip&utm_campaign=newproducts ----------------------------------------- Shop for all of the newest Adafruit products: http://adafru.it/new Visit the Adafruit shop online - http://www.adafruit.com Subscribe to Adafruit on YouTube: http://adafru.it/subscribe Join our weekly Show & Tell on G+ Hangouts On Air: http://adafru.it/showtell Watch our latest project videos: http://adafru.it/latest New tutorials on the Adafruit Learning System: http://learn.adafruit.com/ Music by bartlebeats: http://soundcloud.com/bartlebeats -----------------------------------------
Views: 52827 Adafruit Industries
Thomas Edison at CES 2013 discussing the IEEE Gadget Graveyard
 
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Thomas Edison (in hologram form) appears at the 2013 International CES, discussing the IEEE Gadget Graveyard. What do you think will be headed to the Gadget Graveyard in 2013? Visit IEEE at Booth 30242. The IEEE-SA will demonstrate how it is enabling consumer connectivity through consensus building by showcasing standards, and standards-development projects in a wide variety of areas, including health-device communications, home networking, mobile video, smart grid-into-home devices and electric vehicles. Among the features in Booth 30242, the IEEE-SA will offer demonstrations of health-device communications based on the IEEE 11073™ family of standards.

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