Category 21st Century Technology

What is the use of Ribo device?

The ‘Ribo’ is a robotic solution for those looking to enjoy a bit of digital companionship. It “embraces” your smartphone and displays expressions that seem to convey your smartphone’s feelings while separated from your hands. Half desktop pet and half smartphone dock, Ribo expresses emotions through its eyes displayed on a circular screen that serves as its face. The “tummy” of the robot is where you can slot your smartphone in. Inserting a charging cable turns Ribo into a charging station when needed. If you hold both of its hands in yours, it can take ECG readings that will be displayed on your phone and on its LCD display. Compared to smart docks with wireless charging and advanced features, Ribo might seem lacking, but what it offers is a more personal and approachable connection with technology.

Picture Credit : Google 

What is a lie-detector?

A lie-detector test does not conclusively prove that the person is being untruthful and as such the results of this test are not treated as evidence in Indian courts.

It is a device often used during criminal investigations for questioning suspects. But how does it work?

A lie-detector or polygraph is a device that monitors a person’s involuntary physiological reactions when he or she is questioned about a certain event. The instrument tries to find out if the person is trying to conceal something. It is often used during criminal investigations for questioning suspects. A lie-detector is essentially a combination of a variety of medical devices that monitor changes occurring in the body during questioning. The examiner looks for important reflex actions of the body when the person is subjected to stress, by monitoring fluctuations in heart rate, blood pressure, respiratory rate, etc.

Based on these indications, the examiner can at best interpret if the person is being deceptive. But a lie-detector test does not conclusively prove that the person is being untruthful and as such the results of this test are not admissible in Indian courts.

Picture Credit : Google 

How does Google Maps work?

You might have used or seen your parents use Google Maps while travelling around the city. Have you ever wondered how it works? Find out…

Google Maps has revolutionised travel like never before. Travellers can chalk out their itineraries and find addresses at the dick of a button with the help of this free map service. You can virtually view the street your cousin lives on in the U.S. without even moving an inch from your seat!

Google bases its maps on information taken from a selection of databases. But the most crucial data is provided by the satellite images of cities, which is captured and converted into small image files. The data is then verified with a vast database of map references like longitude and latitude co-ordinates, addresses and postal codes.

When you type an address in the search field, Google sends the query to its global servers and searches for the closest location match. The search results in the corresponding map of the location being displayed on screen, When you ask for directions from Location A to B. Google sorts out the information in its map servers, which store millions of potential route combinations to find the fastest route between the two locations. This kind of system which deals with information related to location is called Geographical Geographical Information System (GIS).

Google Maps first started as a software application developed by the Danish-born Rasmussen brothers Lars and Jens for a company that was later acquired by Google.

Picture Credit : Google 

What is Metaverse?

The latest buzzword in internet circles is ‘Metaverse’! It is making headlines, especially with Facebook even rebranding itself as Meta! It is expected to create a major impact in the digital world.

What is Metaverse?

Put simply, the metaverse is a 3D (three-dimensional) version of the internet. It can be considered a place parallel to the physical world, where you spend your digital life. In the metaverse, you and others in it will have an avatar. You will interact with each other through avatars. It is a shared virtual space, which is interactive and has an immersive experience.

Let’s look at some examples. You may have used the metaverse in some form or the other while playing video games. A basic form of the metaverse has been adopted in the online shooter game Fortnite, where gamers have their own personal avatars to engage with the avatars of other players.

In the stimulation video game Second Life, users experience virtual reality in which their avatars can do everything they can in real life, including eating, sleeping, shopping, etc.

The term ‘metaverse’, first cropped up in the science fiction novel “Snow Crash” by Neal Stephenson in 1992. In the book, the author referred to the metaverse as an all-encompassing digital world that exists parallel to the real world.

Tools needed

You will need a VR (Virtual Reality) headset, a controller and a powerful laptop to enter the metaverse. You will also need digital currency to live in the metaverse.

Future impact

The metaverse will make gaming more realistic and increase the user’s immersive experience. Travelling around the world without leaving your room will become possible. Healthcare and education are expected to gain the most from the metaverse. The metaverse has the potential to radically transform the digital and global economy.

Currently, there is no single metaverse but there are many. All of them are, however, still under development.

Picture Credit : Google 

What’s next in the smart ecosystem?

While many facets of life already have a smart counterpart, colour-changing fibres could be a gamechanger in the wearables market.

We live in a world of smart devices. It wasn’t always the case though. There’s been an eruption of sorts in the last couple of decades as there is an attempt to make every conceivable device now into a smart gadget.

It all started with the proliferation of smartphones. With each of us holding onto one of these almost all the time, it was a matter of time before the manufacturers wanted to put more smart gadgets in our control.

It was in such a climate that household appliances such as televisions, refrigerators, and even washing machines started becoming smarter. With smart bulbs, speakers, and devices to control the entire ecosystem, many facets of life now have a smart counterpart.

Colour-changing fibres

If you had ever wondered what could be next in the smart ecosystem, you might be surprised to know the answer. Researchers from the University of Luxembourg have come up with colour-changing fibres that could well pave the way for… you guessed it, smart clothes! Their results were published in Nature Materials in September 2022.

Up until now, clothing has mainly been about covering our body, protecting it from the environment, and maybe even flaunting our style. The future, however, could see clothing become part of the wearable technology bandwagon.

Remains mechanoresponsive

The researchers used Cholesteric Liquid Crystal Elastomer (CLCE), a structurally coloured polymer system that is capable of changing its colour by mechanical deformation. They then developed a simple, scalable method of creating colour-changing CLCE fibres that can be sewn into the fabric easily. The colour of fibres spanned the entire visible colour spectrum and showed excellent mechanochromic response- changing colour continuously and reversibly upon stretching or other mechanical movements.

The team were able to demonstrate the robustness of the CLCE fibres in garments by subjecting it to repeated stretching, machine washing, and abrasion. In addition to its ability to survive long-term use, the fact that it can be woven or sewn into elastic garments, and that it might not impair user comfort, implies that these can be used as smart textiles.

Apart from numerous applications in wearable technology, innovative fashion, and artistic applications, the researchers believe that it might be particularly useful in sports clothing and wearable robotics. It might even come in handy in non-wearable contexts too, in terms of strain sensing (think ropes incorporated with these fibres) and deformation detection. Becoming mainstream might be some distance in the future, by which time “dressing smart might take a whole new meaning.

Picture Credit : Google 

How does a driveless car move?

Self-driving cars are loaded with advanced technology that can sense their environment.

The concept of a driverless car has leapt out of the pages of science fiction with major auto-makers working to make them a reality. So far, driverless cars have logged millions of kilometres in test runs and are steadily becoming a reality despite the many hurdles still to be overcome.

Self-driving cars are loaded with advanced technology like radar, lidar, GPS, cameras, and laser scanners that can sense their environment. The control systems in the car evaluate the sensory information about obstacles, road signs, traffic signals and other cars on the road to chart out a navigable path to the destination. The car’s computers accelerate, cruise at 120 kph, slow down, brake and pass without the human driver even touching the steering wheel or gear shift.

In December 2020, Waymo (formerly known as the Google self-driving car project) became the first service provider to offer driver-less taxi rides to the general public, in a part of Phoenix, Arizona, USA. While Honda has launched its self-driving car in Japan, Mercedes-Benz is in the process of doing so.

Picture Credit : Google