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Tuesday, 29 May 2018


OT project centers in Mumbai,Pune with high quality Training and development, Latest IOT Projects with recent Technology. Here is a list of project ideas for Internet Of things(IoT) concepts. Students belonging to third year mini projects or final year projects can use these projects as mini-projects as well as mega-projects. If you have questions regarding these projects feel free to contct us. You may also ask for abstract of a project idea that you have or want to work on.The own projects idea for diploma and Engineering students can also be done here.

Mumbai Academics, Mumbai,Pune offers 2017 IEEE Projects on IOT for final year engineering students and Final year engineering projects on IOT . Embedded based 2017 IEEE Projects on IOT projects for M.Tech, EC and BE students. Mumbai Academics , Mumbai,Pune also offer online training for projects on IOT for final year engineering Students and Final year engineering projects on IOT for ECE and engineering students.
Mumbai Academics offers 2017 IEEE Projects training on software JAVA at low cost. See this section for list of Projects on IOT or Contact us for details and projects on IOT.

Mumbai Academics offers IOT based IEEE projects for Mtech and BE final year students. Here at Mumbai Academics we use Embedded platform to work on IOT projects.. We have technical team who are skilled enough to provide solution on latest IEEE related IOT projects. Get analytics and Embedded based projects on IOT for students using C/C++ as core programming language.

Get top quality and trending IEEE IOT projects from here and do it by yourself. We are continuously adding more IOT final year project ideas, so you could find new opportunities in IOT Science. Take reference or would like to start your training from our or yours idea on IOT projects.
Find latest 2017 topic ideas IOT projects for M.Tech students, and IOT projects for B.Tech students. Let us know your feedback and new ideas on IOT Projects.

IoT primarily exploits standard protocols and networking technologies. However, the major enabling technologies and protocols of IoT are RFID, NFC, low-energy Bluetooth, low-energy wireless, low-energy radio protocols, LTE-A, and WiFi-Direct. These technologies support the specific networking functionality needed in an IoT system in contrast to a standard uniform network of common systems.

RFID (radio-frequency identification) and NFC (near-field communication) provide simple, lowenergy, and versatile options for identity and access tokens, connection bootstrapping, and payments

RFID technology employs 2-way radio transmitter-receivers to identify and track tags associated with objects.
NFC consists of communication protocols for electronic devices, typically a mobile device and a standard device.
Low-Energy Bluetooth
This technology supports the low-power, long-use need of IoT function while exploiting a standard technology with native support across systems.

Low-Energy Wireless
This technology replaces the most power hungry aspect of an IoT system. Though sensors and other elements can power down over long periods, communication links (i.e., wireless) must remain in listening mode. Low-energy wireless not only reduces consumption, but also extends the life of the device through less use.

Radio Protocols
ZigBee, Z-Wave, and Thread are radio protocols for creating low-rate private area networks. These technologies are low-power, but offer high throughput unlike many similar options. This increases the power of small local device networks without the typical costs.

LTE-A, or LTE Advanced, delivers an important upgrade to LTE technology by increasing not only its coverage, but also reducing its latency and raising its throughput. It gives IoT a tremendous power through expanding its range, with its most significant applications being vehicle, UAV, and similar communication.

WiFi-Direct eliminates the need for an access point. It allows P2P (peer-to-peer) connections with the speed of WiFi, but with lower latency. WiFi-Direct eliminates an element of a network that often bogs it down, and it does not compromise on speed or throughput.