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Brno, Czechia
11-50 Employees
2017
From the beginning, Roboauto focused on the development and integration of technologies that are innovative and still very progressive. We are always looking for more amazing people to join us. We are always looking for bright minds to join our team. We are seeking a dynamic Business Development Manager with a proven track record in driving revenue growth and forging strategic partnerships in the software development industry. We are seeking talented and experienced Python Developers who want to work on exciting projects and contribute to cutting-edge technology solutions. Project of Valeo and Roboauto is under the NDA restrictions. Roboauto in cooperation with CDV works on several projects in the fields of testing of the teleoperation, autonomous driving, mapping or Czech and Euro projects, such as TACR or SHOW. Project of NS and Roboauto is under the NDA restrictions.
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Featured
Teleoperation
... Teleoperation – ...
Kfar Saba, Israel
11-50 Employees
2019
The DriveU.auto Teleoperation Connectivity Platform enables safe teleoperation of robots, autonomous vehicles, and more, using cellular bonding and dynamic encoding. DriveU.auto is based on technology developed by LiveU, the world leader in cellular-based field video transmission, deployed by more than 3,000 customers worldwide. DriveU.auto uses multiple technologies to ensure high quality, uninterrupted, low latency, high capacity connectivity. It provides high speed, low latency, ultra-reliable transmission of video, audio streams, high-speed data, and control channels, and is available with hardware or as a software-only implementation. Remotely operate and supervise robot fleets with confidence. Teleoperation requires real-time transmission and display of high-quality video, sensor data, and commands. Based on technology from LiveU, a world leader in high-performance video transmission, thoroughly adapted for real-life Autonomous Vehicle teleoperation and other remote operation scenarios.
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Teleoperation to support the movement of people and goods
... Teleoperation grade connectivity: Ultra-low latency and extremely high reliability. 4k video, audio, high-speed data, and control commands. ...
Los Angeles, United States
1-10 Employees
2013
Carbon Origins is dedicated to solving the world's labor crisis by unlocking "Robot Labor" by combining human expertise and artificial intelligence in machines.
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Carbon Origins | Teleoperation and autonomy for heavy machines
... With VR teleoperation and AI co-pilot, operators can now work safely from their homes, collaborating with AI to do high-risk, hazardous jobs. ...
Los Angeles, United States
11-50 Employees
2019
We’re looking for innovative talent to join our team. Sign up to receive JUMPWATTS news and updates.
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Teleoperation | JUMPWatts
... JUMPWatts enables the logistics and operation of last-mile robot fleets through safe and economical human-assisted remote teleoperation. JUMPWatts offers a full suite of solutions to assist with rebalancing, charging and cleaning and inspection stations to service the robotic fleets. ...
Versailles, France
11-50 Employees
2016
Nos collaborateurs s’appuient par exemple sur les maquettes 3D de nos navires ou la fabrication additive robotisée pour les produire.”.
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Kit de téléopération
... Déployez ce kit chez vos clients et fournisseurs, afin de réaliser vos téléopérations d’inspection, de formation ou de maintenance à distance. ...
San Francisco, United States
1-10 Employees
2017
Formant is a cloud platform that helps robotics companies easily deploy, scale, and manage their fleets. Get industry-leading solutions for teleoperation, fleet management, device monitoring, and more. Leverage our expertise in cloud infrastructure, data management, and security to scale your fleet. Designed to grow with you, Formant has plans for every company stage, from startups to Fortune 100s.
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Teleoperation
... Formant teleoperation is just that: real-time command and control of your autonomous device from a browser. ...
Santiago, Chile
11-50 Employees
2011
SK Godelius is an engineering company with operations in Chile and Canada. We are part of Sigdo Koppers Group, one of the most relevant Chilean conglomerates with operations in the Americas, Europe, and Asia-Pacific. The name Godelius is a tribute to Kurt Gödel, who wrote in 1931 an article that moved many notions profoundly rooted in mathematics to the ground. SK Godelius works in close collaboration with many other companies, innovation centers, and universities. SK Godelius conceives, designs, configures and implements robotic solutions by developing them partly autonomously and partly teleoperated. SK Godelius can create solutions for teleoperation in all kinds of environments. SK Godelius develops and builds hardware and software for its customers under the “as a service mode” for a wide variety of applications: IoT, analytics, track and trace, electronic forms, document tracking, among others. The Sigdo Koppers Group is a global player in blasting services, grinding media, engineering and construction, and logistics.
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Solutions / Teleoperation Projects
... Solution / Teleoperation ProjectsThe paradigms have changed for the mining and industrial world: remote-operated or autonomous vehicles, machines, and robots are an evident trend in the framework of the industry 4.0 transformation. A safer and more efficient scenario emerges seeking security, ...
San Francisco, United States
11-50 Employees
2018
Next-Gen Autonomous AI Technology Platform | Cortica, Israel. Enterprise Big Data Analytics Platform | OmniSci, USA. Predictive Battery Analytics Software based on Digital Twins | TWAICE, Germany. Enterprise Big Data Analytics Software Solution | Saagie, France. Fraud Prevention Platform for E-commerce Retailers | Forter, USA.
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Automotive-grade Teleoperation Platform | Ottopia, Israel
... Ottopia's vision is to provide the first automotive-grade teleoperation platform. Ottopia's proprietary platform enables humans to control any type of vehicle from remote, in a manner that is safe and cyber-secure. ...
Technologies which have been searched by others and may be interesting for you:
Some interesting numbers and facts about the results you have just received for Teleoperation
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 29 |
| Amount of suitable service providers | 18 |
| Average amount of employees | 11-50 |
| Oldest suiting company | 2011 |
| Youngest suiting company | 2019 |
Teleoperation refers to the technology-enabled process where a human operator controls a machine, system, or device remotely, often over significant distances, utilizing wireless communication or the internet. This control extends beyond simple commands, allowing for the real-time transmission of complex operations, including movements, actions, and decision-making processes, facilitated by the integration of sophisticated interfaces such as joysticks, gloves, and virtual reality environments. These interfaces provide the operator with sensory feedback, which can include visual, auditory, and sometimes haptic signals, enhancing the operator's ability to control the device as if they were physically present. The essence of teleoperation lies in bridging the gap between the operator's location and the operational field of the device, enabling tasks in environments that are hazardous, inaccessible, or not suitable for human presence, such as deep-sea exploration, space missions, and handling hazardous materials. Within its respective field, teleoperation has revolutionized the way operations are conducted, significantly reducing human risk, enhancing precision in challenging environments, and expanding the realm of possibilities for remote intervention and exploration. Its impact is profoundly felt across various sectors, including healthcare for remote surgeries, military for unmanned reconnaissance and bomb disposal, and the industrial sector for remote maintenance and operation of machinery, underscoring its pivotal role in advancing operational efficiency and safety.
1. Enhanced Safety:
Teleoperation significantly reduces the risk to human operators by allowing remote control of machinery in hazardous environments, such as deep mines, nuclear facilities, or areas with toxic substances. This technology enables tasks to be performed without exposing workers to potential dangers, thereby enhancing overall safety.
2. Increased Efficiency and Precision:
Teleoperated machines often complete tasks more efficiently and with greater precision than humans. For example, in surgical applications, teleoperated robots can perform complex procedures with minimal invasiveness and higher accuracy, leading to quicker patient recovery times.
3. Accessibility to Inaccessible Locations:
Teleoperation makes it possible to operate equipment in locations that are otherwise inaccessible or challenging for humans to reach. This capability is invaluable in scenarios like deep-sea exploration, space missions, and disaster response, where sending human operators might be impractical or impossible.
4. Cost Reduction:
Over time, teleoperation can lead to significant cost savings by reducing the need for physical presence, which cuts down on travel expenses, insurance costs, and the potential for accidents. Additionally, the ability to monitor and control operations remotely can decrease downtime and increase productivity.
5. Flexibility in Operation:
Teleoperation systems offer unparalleled flexibility, allowing operators to switch between different tasks or control multiple machines from a single location. This adaptability is crucial in dynamic environments where conditions and requirements can change rapidly.
While evaluating the different suppliers make sure to check the following criteria:
1. Technology Compatibility
Ensure the supplier's technology is compatible with your current systems and infrastructure. This includes hardware, software, and network requirements.
2. Scalability
The solution should be able to scale up or down based on your operational needs and growth projections.
3. Latency
Low latency is crucial for real-time control and responsiveness. Verify the supplier's performance records and latency benchmarks.
4. Security Measures
Review the security protocols and measures in place to protect against unauthorized access and data breaches.
5. User Experience
The interface should be user-friendly and intuitive, requiring minimal training for operators.
6. Customer Support
Look for suppliers with a proven track record of reliable customer support and service availability.
7. Regulatory Compliance
Ensure the supplier complies with relevant industry standards and regulations, particularly those related to privacy and data protection.
8. Cost-Effectiveness
Evaluate the total cost of ownership, including initial setup, maintenance, and potential scalability costs.
9. Integration Capabilities
The ability to integrate with other systems and technologies is essential for a seamless operation.
10. Proven Track Record
Seek out suppliers with a solid history of successful deployments and satisfied customers in your industry.
Teleoperation, the remote control of machines or robots, is revolutionizing industries by enabling operations in environments that are dangerous, distant, or difficult to access. In manufacturing, teleoperation allows experts to control machinery and robots from safe distances, minimizing the risk of accidents and enabling precision in tasks like assembly, welding, and maintenance. This not only enhances safety but also improves efficiency and reduces the need for onsite specialist personnel. In the realm of healthcare, teleoperated robots are transforming surgeries and patient care. Surgeons can perform complex procedures remotely with robotic systems, offering precision and flexibility unmatched by human hands alone. This expands access to specialized medical services, particularly in remote or underserved regions, ensuring that more patients benefit from advanced healthcare. Another significant use case is in the exploration and maintenance of hazardous environments, such as offshore oil rigs, nuclear facilities, and space missions. Teleoperated drones and robots can perform inspections, repairs, and data collection where human presence is risky or impossible. This capability not only safeguards human life but also ensures continuous operation and data gathering in critical sectors. Lastly, in logistics and warehousing, teleoperation is enabling remote control of forklifts, drones, and other equipment for inventory management and goods handling. This application streamlines operations, reduces the need for physical labor, and enhances the efficiency of supply chains, especially in large-scale or complex facilities. Through these diverse applications, teleoperation is proving to be a versatile and valuable tool across various industries, enhancing safety, efficiency, and access to services.
As of the latest assessments, teleoperation technology predominantly resides at Technology Readiness Level (TRL) 7-9, signifying that it has advanced beyond prototypes and is now being integrated and demonstrated in operational environments. This classification stems from substantial advancements in several key technical areas. Firstly, improvements in communication technologies, including 5G and beyond, have significantly reduced latency, a critical factor for real-time control in teleoperation. This enhancement in communication infrastructures allows for instantaneous feedback and control, which is paramount for the precision required in teleoperated systems. Secondly, developments in robotics and automation have enabled more sophisticated and dexterous teleoperated systems, capable of performing complex tasks with high degrees of autonomy when necessary, while still under human oversight. Additionally, advancements in sensor technology and data processing capabilities have improved the situational awareness of teleoperated systems, allowing operators to make more informed decisions based on comprehensive environmental data. These technical milestones collectively facilitate the deployment of teleoperation in various fields, including surgery, unmanned aerial vehicles (UAVs), and remote vehicle operation, indicating its readiness for broader application and indicating its position at the higher end of the TRL spectrum.
In the Short-Term, teleoperation advancements will primarily focus on enhancing remote control capabilities and reducing latency. The integration of 5G technology will significantly improve the speed and reliability of teleoperated systems, allowing for more precise and real-time control of distant machines. This phase will also see the development of more intuitive user interfaces, making teleoperation accessible to a broader range of operators without extensive training. In the Mid-Term, the evolution of teleoperation will be marked by the incorporation of advanced artificial intelligence (AI) and machine learning algorithms. These technologies will enable semi-autonomous operation modes, where teleoperated systems can perform certain tasks independently while under human oversight. Improved sensory feedback, including haptic responses, will allow operators to receive tactile feedback, enhancing the interaction with remote environments. Additionally, augmented reality (AR) and virtual reality (VR) technologies will be integrated to provide operators with immersive control experiences, further blurring the lines between physical and remote operation. Looking towards the Long-Term, teleoperation will evolve into fully autonomous systems capable of complex decision-making with minimal human intervention. Breakthroughs in AI, robotics, and communication technologies will enable these systems to adapt to new situations, learn from past experiences, and perform tasks in unpredictable environments. The long-term advancements will also focus on ensuring ethical use and addressing security concerns, ensuring that teleoperated systems are safe, reliable, and beneficial for society. This era will redefine human-machine interaction, with teleoperation expanding into space exploration, deep-sea exploration, and other areas previously inaccessible to direct human presence.
