fbpx

Designed and built with care, filled with creative elements

Estd Yr 2000 Arya 1st Old Campus REAP Code : 14

Admission Contact

Dr Arun Arya

1800-266-2000 1800-266-2000 1800-266-2000

Contact for Admission

Arun Arya

Prof. (Dr.) Arun Arya

Estd Yr 2000 Arya 1st Old Campus REAP Code : 14

Admission Contact

Dr Arun Arya

1800-266-2000 1800-266-2000 1800-266-2000

Contact for Admission

Arun Arya

Prof. (Dr.) Arun Arya

Top
Front View of Arya College of engineering and IT

Latest innovation trends in Electronics and Communication Industry

  /  Faculty Blog   /  Latest innovation trends in Electronics and Communication Industry

Latest innovation trends in Electronics and Communication Industry

Innovation trends in Electronics and Communication Industry

The tech revolution is not going to catch breath any sooner and will only progress leaps and bounds. Students of electronics and communication engineering from the Best Engineering Colleges are responsible for these latest electronic trends. These courses like degree and diploma in electronics designed to offer you best jobs for Electronics and Communication Engineering. Some of the latest trends in this field are as follows:

World’s smallest computer

Students of top engineering college has now developed an even smaller device. Measuring just 0.3mm to a side, smaller than a grain of rice. Earlier, the computers were 2x2x4mm and retain their programming and data even when these are not externally powered. Unplug a personal computer, and its program and data are still there when it boots itself up once the facility is back. These new microdevices lose all prior programming and data with the loss in power.

In addition, it achieves high accuracy while running on low power, which makes many of the standard electrical signals (like charge, current and voltage) noisier. Designed as a precision temperature sensor by the engineering professionals. The new device converts temperatures into time intervals, defined with electronic pulses.

Robot which will sort recycling by giving it a squeeze

Scientists at electronics and communication and Artificial Intelligence college have developed a robot arm with soft grippers. That picks up objects from a conveyer belt and identifies what these made of by touch. The robot, called RoCycle, uses capacitive sensors in its two pincers to sense the dimensions and stiffness of the materials it handles. This permits them to differentiate between different metal, plastic and paper objects. During a mock recycling-plant setup, with objects passing on a conveyor, RoCycle correctly classified 27 objects with 85 per cent accuracy.

Blue, the human-friendly robot designed for AI

A team of researchers at the best btech college India has developed Blue, a low-cost, human-friendly robot. It had been designed to use recent advances in AI (AI) and deep reinforcement learning to master intricate human tasks, all while remaining affordable and safe enough in order that every AI researcher could have one.

AI has done tons for existing robots, but experts wanted to style a robot that’s right for AI. Existing robots are too expensive, not safe around humans and similarly not safe around themselves, if they learn through trial and error, they’re going to easily break themselves.

AI accurately predicts the useful lifetime of batteries

Scientists at top private engineering college in India has introduced the combination of comprehensive experimental data and AI. Which revealed the key for accurately predicting the useful lifetime of lithium-ion batteries before their capacities start to wane. After they trained their machine learning model with hundred million data points of batteries charging and discharging, the algorithm predicted what percentage more cycles each battery would last, supported voltage declines and a couple of other factors among early cycles.

The predictions were within nine per cent of the amount of cycles the cells actually lasted. Separately, the algorithm categorised batteries as either long or short anticipation supported only the primary five charge/discharge cycles.

Goodyear unveils concept tyre for flying cars

Recently, Goodyear unveiled its AERO concept tyre for flying cars at Geneva International Motor Show in Switzerland. The tyre would then convert into a propeller for flying. It’s a tilt-rotor tyre that facilitates a seamless transition from ground-to-air travel. Rather than a rigid wheel, it features fan-like spokes. The solid airless tyre is flexible enough to dampen bumps within the road while being strong enough for high-speed rotation needed for rotors to make vertical lift. That rotation would be achieved using magnetism to get frictionless propulsion.

AERO provided with light-based fibre-optic sensors to watch road conditions, tyre wear and structural integrity. It might use AI (AI) developed at top btech college to mix and analyse sensor information and communications from other cars and nearby infrastructure. The AI processor would recommend a course of action later that includes when to modify between flying or driving mode and anticipate, identify and resolve potential tyre issues before these become a danger.

Samsung releases the world’s first 5G phone

Telecom giant Samsung Electronics has released Galaxy S10 5G, the world’s first available smartphone with built-in fifth-generation (5G) communications, to create a lead within the transformative technology. Their three mobile carriers, namely, SK Telecom, KT and LG Uplus, held launch events across Seoul for Galaxy S10 5G. Interactive computer game (VR) displays and robot demonstrations show to spotlight the capabilities of the newest iteration of mobile Internet speed. And new users were excited about the chances, especially live streaming of sports games and university lectures.

MetaFly, a replacement flying experience

Professionals or engineers of best engineering college has developed a remote-controlled ornithopter. And are running a Kickstarter campaign to fund the primary production run. The aircraft often controlled with a two-channel remote, and features a range of 100 metres accelerates to 18 kilometres per hour often reached. And therefore the 55mA per hour hybrid lithium-polymer battery gives eight minutes of flight from a 12-minute charge. An upgrade kit available through the campaign lets users bring an influence bank along during flights for even longer flying times.

MetaFly features a wingspan of 29 centimetres, length of 19 centimetres and weighs but 10 grams. The 0.8-watt coreless motor drives a gearbox with a 1/36 reduction. The remote measures 10cm x 15cm. Wings built from carbon-fibre and liquid polymer. And therefore the tail often moved up or right down to give users more control or speed during flight.

Placement