Soliton - Blog

The Critical Importance of Cellular Bonding Technology in Teleoperations and Teledriving

Written by Mark Andrews | Jul 18, 2023 2:52:49 PM

The Critical Importance of Cellular Bonding Technology in Teleoperations and Teledriving

Teleoperations and teledriving have revolutionized industries by enabling remote operations of critical tasks. These operations heavily rely on secure live streaming video with ultra-low latency to ensure the success and safety of remote operations. To achieve this, a robust network communication infrastructure is required, typically utilizing cellular networks. However, relying on a single cellular connection may introduce risks such as weak signals, frequent dropouts, and limited bandwidth. To address these challenges, bonding technology that combines multiple cellular network operators into a single connection has emerged as a critical solution. In this blog post, we will explore why Bandwidth bonding technology is crucial in the context of teleoperations and teledriving.

Advantages of Cellular Bonding:

Cellular bonding involves aggregating multiple connections, such as 3G/4G/5G LTE, WiFi, satellite, and more, to create a high-bandwidth and reliable signal. Bandwidth technology offers several advantages that are essential for teleoperations and teledriving scenarios:

  • Reliability: Relying on a single connection source can be risky, especially in remote or outdoor locations where signal coverage may be weak or non-existent. By bonding multiple connections, the risk of signal dropout or complete loss is significantly reduced. If one connection becomes unstable or fails, the others can compensate, ensuring uninterrupted communication.
  • Ultra-Low Latency: In critical remote operations, such as teledriving, real-time communication and instantaneous response are imperative. Cellular Bonding technology, equipped with advanced algorithms like TVU Networks' IS+, achieves transmissions with virtually zero latency. This ultra-low latency ensures that operators can remotely control vehicles or machinery with minimal delay, enhancing precision and safety.
  • Increased Bandwidth: Bonding multiple connections results in greater overall bandwidth, allowing for higher-quality live video streaming. This is crucial for teleoperations and teledriving scenarios where clear and high-resolution video feeds are essential for operators to make informed decisions. With bonding technology, operators can benefit from superior picture quality and a more immersive remote experience.

Applications in Teleoperations and Teledriving:

The critical nature of teleoperations and teledriving demands a reliable and high-performing network infrastructure. Bonding technology plays a vital role in various applications within these fields:

Remote Control of Vehicles: In autonomous vehicles or drones, teleoperations enable operators to take control remotely in complex or emergency situations. Cellular Bonding technology ensures secure, low-latency video streaming, allowing operators to monitor the environment, make informed decisions, and navigate the vehicle safely.

Industrial Automation: In industrial settings, teleoperations enable remote control of robotic systems and machinery. Bandwidth Bonding technology ensures that operators receive real-time video feedback, allowing them to remotely monitor the operations, respond to anomalies, and maintain safety protocols [1].

 Emergency Response: During emergency situations, such as where an autonomous driving machine cannot complete a task where its logic may have failed to understand the situation, teleoperations enable remote operators to provide guidance and assistance. Cellular Bonding technology ensures that these operators have a reliable and high-quality video feed, enabling them to assess the situation accurately and take over the control of the car.

Conclusion:

In the realm of teleoperations and teledriving, secure and low-latency live video streaming is crucial for critical remote operations. Bandwidth Bonding technology, which combines multiple cellular network connections into a single, reliable connection, plays a vital role in ensuring the success, reliability, and safety of these operations. By leveraging bonding technology, operators can benefit from enhanced reliability, ultra-low latency, increased bandwidth, and improved situational awareness. As teleoperations and teledriving continue to advance, the significance of bonding technology will only grow, empowering industries to achieve new levels of remote operatio