Video technology is changing industries across the board. From conducting business meetings over Zoom to shopping for clothes in intelligent dressing rooms, video is becoming a staple of daily life.
But there’s still room for improvement in the world of video. For example, industry professionals are working towards increasing pixel color to better showcase rich imagery on-screen.
Low-Latency Live Streaming
Whether watching sports, news, or TikTok, today’s viewers want a seamless viewing experience like the Neat video technology. Buffering, lag, and other latency issues can derail an experience or cause viewers to abandon your content altogether.
Low-latency streaming is the solution to this challenge. It reduces the delay from capturing video to when it’s seen on screen, allowing viewers to interact and engage with streamed content in real time. This is especially important for remote experiences, such as digital interactive fitness or live gaming, that require a real-time connection.
The video must be converted into a streamable format to deliver low-latency streaming. This process breaks up the video file into chunks and then gives it to the viewer’s device sequentially. The choice of streaming protocol and how the chunks are reassembled can positively or negatively impact latency. Low-latency technologies, such as LL-CMAF, minimize latency while guaranteeing video quality.
Hybrid Environments
XR technologies like VR and AR transform technology by blending real-world elements with virtual ones. They also enable remote collaboration and communication between team members across different locations. This allows digital transformation in the tech industry to enhance R&D, speed up project timelines, and improve the quality of work.
While these technologies can streamline operational efficiencies, boost customer service, and reshape product offerings, they can only achieve their full potential with a holistic view of the business environment. Using video monitoring and analytics, businesses can better understand the challenges facing their digital supply chain and identify opportunities for improvement.
A hybrid IT environment allows organizations to maintain data security and control in a traditional on-premises infrastructure while leveraging cloud components for scalability and flexibility. This helps companies meet their business’s unique requirements while minimizing overall costs. This is especially important for companies seeking measurable progress toward their sustainability goals. Enterprises can achieve significant cost savings by choosing a solutions partner with flexible pricing packages.
Metaverse Interoperability
As the metaverse evolves, brands will want to be able to migrate avatars and digital content across platforms. This would enable them to reach a broader audience in more immersive and engaging virtual environments without risking data loss.
However, this goal faces many challenges. First, privacy concerns prevent consumers from freely migrating their content and identity between different platforms. Second, there are technical hurdles like protocol standardization, data synchronization, and creating a seamless experience.
Finally, legal issues may interfere with interoperability, as different platforms have varying terms and conditions that govern virtual assets and users. This could lead to a fragmented space controlled by large technology companies, similar to the oligopoly of centralized players that rules the current Internet and social media. However, the Khronos Group is working to overcome these barriers by developing an open metaverse standards framework that promotes interconnectivity. The group’s royalty-free, open XR standard has gained widespread industry support.
IoT Streaming
IoT (Internet of Things) technology is everywhere. From smart light bulbs to home thermostats to self-driving cars, we live in a world filled with connected devices constantly transmitting data to the Internet.
Manufacturers are embracing IoT to become more data-driven and agile. This can be connecting devices for real-time data assessment or remotely monitoring equipment for production and safety issues.
IoT can reduce the time and effort spent keeping electronic health records up-to-date in healthcare. Remote patient monitoring also allows healthcare providers to respond faster to emergencies.
At the same time, IoT is reshaping our built environment. Smart buildings use less energy, utilize space more efficiently, are safer, and can attract better employees. Even our highways and cities are becoming more responsive to traffic conditions with IoT-enabled vehicles and systems. While functional holograms are not yet available, a future of controlling real-world systems and objects from a central location is quickly approaching.