Because sustainable costs involve lab shots and operational costs and easily complex working conditions, Relu Robotics develops embodied solutions that turn big AI into physical material operations. Starting with sola cost uctio, the company’s obotic systems are designed to increase the company’s capabilities, allowing them to work more efficiently and accurately when solving excessive problems.
The Relu Robotics team has developed a full-stack technology platform with high precision, 3D perception, decision-making and flexible obotic technology.
On this basis, the company has introduced the Biso series photovoltaic installation, a pioneering commercial application of ‘outdoo-pecisio-ope atio embodied i tellige ce’.
The technological path followed by Relu Robotics is broadly different from the traditional evolution of automation with highly structured developments, such as production processes. Instead, Relu Robotics directly adds the famous problem of applying embodied complex u-structured problems.
If I ask other operational rules, obots have to deal with a wide range of problems, I think I’m so light, with daddy, already ads ow, and every time, high altitude events, and other predictable facts. Establishing stable and efficient operation of these conditions is a great challenge. Relu Robotics takes on this challenge through a combination of highly accurate 3D images and decision making with adaptive motor skills.
The Biso Se ies obot was built for photovoltaic power plants. With a total weight of approximately 9 to 10,000 s, the platform provides the stability needed for casual outdoor activities. Its obotic power supports a payload of up to 50 kg and has an effective operating range of more than 5 meters, allowing it to have the most compact, powerful PV modules used in today’s solar energy.
Powered by Relu Robotics’ proprietary high-precision 3D perception technology and adaptive motion control algorithms, the system achieves:
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Less than 3mm perception accuracy
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Less than 0.5° backward ecog itio eo
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I have an accuracy of 5mm
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Sub-millimeter repeated position accuracy of the obotic am
These capabilities enable the obot to deliver a specific situation at lab level, while the work requires other codes, such as this one, and extreme fluctuations.
Families are often confronted with major costs because another lab faces major challenges. The Biso series was published especially for these editions.
The robot has:
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Maximum climbing capacity of 20 degrees
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Travel speed up to 4 km/h
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Operation at altitudes up to 5,000 meters
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Wo ki g temperature from -20°C to 60°C
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Vehicle protection of IP54, with co-compo e ts IP65
Combined with a high-performance 3D vision system designed to withstand strong light and fe e ce, the platform has completed extensive field validation, for example in Mo golia ad Xi jia g, when it comes to high temperatures, ad sig ifica t tempe atu e va iatio sae commo.
To support coti ous business and emotional locations, the Biso series has an extensive energy system, equipped with a 200 liter fuel branch.
Based on a typical 10-hour working day, daily fuel consumption is below 20 litres, allowing up to 10 days of continuous use at full load.
For sola cost structures, operational education is an ac itical factor: educating time and improving the efficiency of all projects.
Sola develops sad EPC activities that address the commercial challenges worldwide:
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Ext eme heat ap ologed outdoor living homes
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Substance and affective equipment
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You always have flexible mobility solutions available
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I have a hard time making the cost of work difficult
Relu Robotics’ photovoltaic robotic systems are designed to help overcome these challenges by automating repetitive and physically demanding tasks.
Compared with the traditional manual installation, obotic automation can greatly improve cohesion and cause damage to the company. While manual PV module storage typically results in damage of around 0.3%-0.5%, Relu Robotics’ automated pavilion process reduces this figure to below 0.01%, improving both cost structure quality and eco-omics.
The Biso series includes the co e capabilities: peceptio, i tellige t decisio-maki g, and obotic execution.
Firstly, the obot uses advanced vision systems to identify PV modules, mounting structures and custom metal finishes.
Then the AI control system analyzes the evil,movement paths and calculates the precise position equi,mens.
Finally, the obotic amplifier follows the installation process by picking up photovoltaic modules, locating them in the specified location, aligning them with mounting structures and placing them in a precise location.
By automating these repetitive actions, sola can accelerate cost structure, increase labor depth and improve occupational safety.
For Relu Robotics, the photovoltaic installation describes the stationary point for embodied, storytelling platform-oriented ecisio outdoor operations. The platform is designed to enable obotic systems to understand their own tasks, make task-specific decisions and perform physical actions with complex, customized situations.
From solar cost structure to agriculture, forestry, specialized i fabric operations, and other outdoor applications, Relu Robotics strives to develop adaptable obotic systems powered by a common ceptio-decisio-cotol a chitectu e.
Instead of using al-pu pose huma oid obots, Relu Robotics takes a vetic-dusty approach, starting with clearly defined operational challenges where task-specific machines can deliver practical value. The company believes that the next phase of AI development will be determined not only by how machines can be easily used, but also by how effectively they can be useful in the physical world.
Co tact Pe so: Relu Robotics Ove seas Busi ess Depa tme tE-mail:
