Virtual Reality (VR) and Augmented Reality (AR) are new concepts but will change the world in 5 years. Augmented reality encourages virtual reality to help us forget. Together, they open up a world of uncertainty, the internet, or the Internet of Things; A new industry, Internet Experiences, is emerging.
In 2022, it is clear that we are living in a new era of innovation. Far from Silicon Valley, companies and startup hubs around the world are dealing with major challenges like water scarcity and cancer. The concept of “the next big thing” has become redundant as bad things become normal. Here are nine innovations that could soon change the world:
Artificial Intelligence (AI).
The idea of artificial intelligence capable of learning and operating independently of human controllers sounds like science fiction. However, this could become our new reality in the next 3-5 years. The robots will be able to learn skills, perform tasks, and upload data to the cloud to help other AI systems learn faster. Other types of AI will no longer be programmed in isolation. They will come up with ideas, iterate, and improve faster than humans. The best part is that the “future” is already here. Scientists have just developed a revolutionary artificial intelligence that can run the 2001 Nobel Prize-winning quantum physics experiment in less than an hour.
All of this data has made the AI brain-enabling tool, which has made incredible leaps in recent years, especially when it comes to ‘conversational AI’. By 2020 alone, smart speakers will respond to 100 billion voice commands – 75% more than in 2019 – all using artificial intelligence.
The enterprise-ready thinking is that as our interactions with machines become more sophisticated, consumers expect all kinds of products and services to feature some kind of AI capabilities.
How much time do you spend walking each week? If Google, Apple, or Tesla get what you want, you may soon be spending that time sleeping, reading, or shopping. Self-driving cars already exist and they are all racing to dominate the market. General Motors recently acquired Cruise Automation for more than $1 billion, and ride-hailing services like Uber and Lyft are investing heavily. Even garage hackers like George Hotz are making their mark in the industry.
In the past, space exploration has been expensive and ineffective. A single launch costs between $100 million and $300 million, but the rocket makes only one flight before crashing freely through Earth’s atmosphere and burning up. Companies like SpaceX, Blue Origin, and United Launch Alliance are changing the game by developing precisely maneuvered rockets that can land safely. 3D printing rocket parts, including liquefied natural gas instead of rocket fuel, will also cut costs. Rockets will soon be reusable, and space travel will become more affordable.
Virtual Reality and Augmented Reality
The main difference between AR and VR is the computer-generated simulation of virtual reality. This means that the alternate reality or world is created graphically.
With the right hardware, the user can be fully immersed in the digital world. Therefore, there are also important differences between AR headsets and VR headsets. Devices facing VR require sensory devices that translate real-world movements into archetypal reality.
Here’s how virtual reality (VR) works
The focus of VR is simulating a new reality. With the VR screen, the user can explore and interact with the digital world. This requires a dual-lens between the user and the screen. They interpret eye movements and turn their movements into virtual reality. Therefore, in this case, large devices are required to isolate the user from the real world.
Renewable energy sources
Renewable energy is energy derived from natural sources that are being replenished at a higher rate than consumption. For example, sunlight and air are constantly equal. Renewable energy sources are abundant and all around us.
On the other hand, coal, oil, and gas – are non-renewable resources that take hundreds of millions of years to form. When fossil fuels are burned to produce energy, they emit harmful greenhouse gases such as carbon dioxide.
Renewable energy production results in fewer emissions than burning fossil fuels. The transition from fossil fuels, which is currently the largest source of emissions, to renewable energy, is critical to resolving the climate crisis.
Another big trend in innovation and technology is 3D printing which is used to create prototypes. This technology has had a positive impact on the biomedical and industrial sectors. None of us ever thought about printing the truth out of a printer, and now it’s true. So, 3D printing is an innovation that is here to stay. For companies in the data and healthcare sector that require massive 3D printing of their products, the various jobs pay well and are international. All you need is a good knowledge of artificial intelligence, machine learning, modeling, and 3D printing. Let’s take a look at the best jobs in this major:
- CX Program Manager
- 3D printer engineer
- Emulation Prototyping Engineer
- Robotics coach
- Artificial intelligence designer
- operation manager
- Organ and prosthetic designer
- Extensive desalination
Desalination is not a new concept but it has been difficult to adapt due to the high costs. The Israeli company Sorek has built the largest desalination plant in the world with a capacity of 627,000 cubic meters of water per day. Within a year, it is expected that 50% of Israel’s water will come from desalination. Sorek has demonstrated that large-scale desalination is possible. This innovation could help solve the California drought and possibly the global water crisis.
Interfaces, formats, sensors, and applications will evolve as mobile computing devices manage Internet connectivity. By 2025, an additional 4.3 billion people will have access to mobile connectivity.
DNA Analysis and Structural Biology
Gene editing can have special advantages when detecting “bad” genes – genes that may jeopardize the health of an organism or its offspring. The new gene-editing technology could, in theory, mitigate these negative effects. In this way, gene editing could provide some giant leaps in the fight against disease – in humans, animals, and crops.
While gene-editing tools can be used to make small changes in DNA, synthetic biology involves sewing long strands of DNA together and inserting them into an organism. As a result, the creature may behave differently or possess entirely new powers.
What does this have to do with work? I believe synthetic biology and gene editing can fundamentally change the way we produce products. Think of exciting new products like cultured meat, and it’s easy to see how transformative these technologies can be.
Engineering the immune system
We are closer to finding a cure for cancer and leaving chemotherapy behind the past. This is no exaggeration because companies like Cellectis, Juno Therapeutics, and Novartis are already saving lives through gene editing and immunotherapy. Over the past two years, diseases such as cancer, multiple sclerosis, and HIV can be cured by re-engineering the immune system. Genetically modified immune cells, such as killer T cells, designed to eliminate cancer, will save countless lives.
We are about to solve some of the biggest problems in human history. The next “big thing” will soon lead me to “something bigger” because innovation never stops. This is the time to help. The possibility is endless with financial support for anyone with the right mindset.