We cannot over-emphasize the role and impact technology has played in both our personal and working lives. Understanding how technology has affected peoples interactions with each other and the natural environment is critical not just for those who study, develop, and implement new technologies; but also for all those who must utilize those technologies in their professional and personal lives.
Autonomous vehicles, personalized medicine, blockchain, robotics, artificial intelligence, crypto-currencies, sophisticated automation, deep learning, and concepts like Universal Basic Income are just a few of the technologies that are poised to transform our society. Isn’t it amazing?
In the years ahead, we will witness significant technological advancements that will have a profound influence on our lives, economies, and societies. Innovation occurs continually, at scale, and in a variety of ways in our connected world, with unprecedented levels of information, knowledge, and ideas exchange.
Corporations, secret labs, universities, startups, research scientists, and hundreds of creative individuals all around the world are driving the change.
Here is a list of the three technological innovations we selected that are about to change the world:
An autonomous vehicle, often known as a self-driving automobile, is a vehicle that is progressively gaining prominence. Most automakers intend to transition from traditional human-controlled vehicles to self-driving intelligent vehicles that can recognize their environment and run autonomously without human involvement. A human passenger is not necessary at any point to assume control of the car, nor is he or she needed to be present in the car at all times. A self-driving car can go everywhere a typical automobile can go and perform all of the tasks that a qualified human driver can.
To execute the software within the car, autonomous vehicles will rely on sensors, actuators, complicated algorithms, machine learning systems, and powerful computers.
Based on several sensors located throughout the vehicle, self-driving cars develop and maintain a map of their surroundings. Radar sensors track the location of surrounding cars.
Video cameras are used to detect traffic signals, read road signs, monitor other cars, and watch for pedestrians. Lidar (light detection and ranging) sensors estimate distances, detect road boundaries and recognize lane markers by bouncing light pulses off the car’s surroundings. When parking, ultrasonic sensors in the wheels detect obstacles and other cars.
Even though autonomous vehicle development has achieved widespread acceptability, fully driverless vehicles are still being tested in many parts of the world and are not yet available to the general public. The challenges range from the technological and legislative to the environmental and philosophical.
While many of you have used augmented reality (AR) on your mobile devices to play games like Pokémon Go or to utilize the face filters on Facebook or Snapchat, how many of you have utilized AR in real-world scenarios?
Wearable Augmented Reality technology serves as the foundation for the most sophisticated and engaging mixed reality experiences. Beyond the “AR under glass” features of smartphone-based solutions, wearable AR rigs enable extremely immersive projections, virtual holograms that can cover the field of vision almost entirely.
Wearable AR headsets provide various benefits over smartphone AR, the most notable of which are enhanced immersion owing to specialized visual projectors and the prospect of better-integrated audio. They do, however, have the problem of requiring specialist gear, which is currently big, somewhat pricey, and out of date.
Despite these difficulties, it appears that AR headsets and wearables will find various applications in industry and enterprise. Many forms of in-field activities, such as maintenance and delivery services, may benefit from wearable AR, and the unique nature of the activities may overcome the devices’ current awkwardness.
Though wearable AR has been accessible for decades, new advancements have begun to make it more broadly available. Microsoft’s HoloLens, an AR headset, is one of the most remarkable recent innovations.
The use of light field technology is one of the more intriguing breakthroughs in wearable VR. Light fields have the potential to significantly improve the depth and realism of virtual holograms, allowing for 3D projections that overlay and integrate more organically than LCD pictures. This technology promises to do more than simply project or graft digital information onto our perspective; light field technology will enable the greater realization of a hybrid digital and physical world.
Robots have become a mainstay of American popular culture over the past century, permeating film, literature, and art. The word robot itself was coined in a play by the Czech writer Karel Čapek!
Their appearances are sometimes friendly, sometimes menacing, but always strange. While the stories depicted by these works are a far cry from our reality, the advent of robotics and artificial intelligence as serious fields of study across all industries has ensured our mechanized fellows are here to stay.
Given the recent surge of this technology, the savvy citizen of today needs to obtain a working knowledge of robots, robotics, and automation. This guide will give you the foundation upon which you can build your robotics expertise.
Robotics is a field that integrates science, engineering, and technology to build robots that do (or mimic) human jobs. In popular culture, robots have long been a source of intrigue. Are these exaggerated, humanoid robot designs, parodies of the real thing, or are they more forward-thinking than we realize?
As artificial intelligence and software continue to advance, we’re certain to see the promise of the robots sector sooner rather than later. Robots will soon become smarter, more flexible, and more energy-efficient as these technologies improve. They will also be a key focus point in smart factories, where they will take on more challenging issues and contribute to the security of global supply networks.
Though, yet in its infancy, the robotics sector holds out an excellent promise of advancement that science fiction could only dream of. Robots will be discovered executing activities that humans could never imagine doing alone, from the darkest depths of our seas to hundreds of kilometres in outer space.
These are a few tips on the types of future technologies to expect that will change the way you live and work. So, don’t be left out you can decide to learn any of these technologies to keep you in the know.