Whenever you are in the latest news technology topics, you are likely to come across a variety of new things. These include advances in the Oculus Rift, artificial intelligence with Neuromorphic Chips, and Bionic eyes to restore vision to people who are blind or have different kinds of vision impairments.
Bionic eyes restore sight to people with different kinds of vision impairment
Several companies are working on bionic eye implants, which are designed to help patients with vision impairments to see better than they would with normal eyes. These implants work by putting an artificial lens in place of the natural lens of the eye.
The artificial lens uses 1/100 as much energy as a natural lens. This helps to restore vision at different distances. The bionic lens also can focus at different ranges.
Bionic eye systems are intended to help patients with retinitis pigmentosa and other diseases that affect the light-sensing cells in the retina. In some cases, these retinal cells may fail to function, leaving the patient with a complete loss of sight.
There are two types of bionic eye implants: retinal implants and cortical implants. The latter is based on a brain-based implant.
Qualcomm makes significant advances in artificial intelligence system with Neuromorphic Chips
Several companies have been trying to simulate the biological neural systems of the brain with man-made devices. Neuromorphic Chips are designed to mimic brain activity and facilitate learning. This approach is used in a number of industries including robotics, autonomous vehicles, and data mining.
Neuromorphic Chips are designed to accelerate processing speed, enable data storage, and improve pattern recognition. Using this approach, manufacturers can anticipate user needs and improve visual, audio, and sensory data processing.
One of the main challenges for the silicon industry is power dissipation. To address this, manufacturers will need to develop new devices that can perform the required tasks with less energy. Neuromorphic Chips are expected to be used in smartwatches and autonomous vehicles. These chips are expected to be used to process sensor data, recognize artificial intelligence, and calculate deep learning.
OpenAI software creates images from worded prompts
Using words and prompts, OpenAI’s Dall-E software creates images. It’s one of the most popular and sophisticated image generators on the market.
Aside from producing stunning images, the program can also manipulate the results to make the most of the inputs. This means that it can be used for commercial applications, such as dressing websites.
As with most artificial intelligence software, there is potential for ethical or unintended consequences. The AI may learn biased or unsavory behaviour from users online, or the system may create images with incorrect labels. For example, a user may request an image of a rare animal, and the result may be an image of a fox in a tree.
OpenAI, a research organization based in San Francisco, has created a program that uses words and prompts to generate images. While the program has been around for a while, the company has only recently made it available to the public. Eventually, it will be available through third-party apps.
Oculus Rift has implications for architecture design, emergency training, and phobia therapy
Whether you are in the market for a virtual reality headset, looking to augment your next trip to Vegas, or just want to see what your kids think you are doing in the privacy of your own home, Oculus VR is the real deal. As you can see by browsing its site, they have a plethora of virtual reality experiences and products, including games, apps, and immersive virtual environments. And while it’s not easy to find a good virtual reality experience, Oculus has been a godsend to developers of all shapes and sizes. Oculus will provide free access to their virtual worlds for developers and gamers. And Oculus VR is not the only virtual reality provider, with companies such as HTC and Samsung showcasing their virtual reality offerings.
Technology-induced displacement of employees
Throughout the 20th century, the introduction of new technology into the economy has created a situation called technological unemployment. This occurs when employees are replaced by machines. Depending on the specific technology and the economy, the number of workers who lose their jobs may vary.
There are both positive and negative effects of technological unemployment. For example, new technologies may lead to the creation of new industries, or may create new jobs. It is also important to note that technological unemployment may not be a permanent trend. As technology continues to evolve, workplaces will change and workers will need to acquire new skills.
The impact of technology is expected to affect workers across all industries. The increasing use of artificial intelligence and robotics will create unprecedented challenges.