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Acceed News
Acceed presents Ultra-light drone computer with AI performance
Acceed introduces FLYC-300: Compact AI box computer for industrial drones and mobile robotics.
acceed.com
Ultralight LowSWaP computer FLYC-300 from Acceed
Computers for the intelligent control of unmanned vehicles and stationary robots, also in industrial surroundings for a longer period with AI-based applications. However, manufacturers and constructors are faced with a special type of challenge when handling flying devices, e.g. drones which are applied in an industrial context.
The weight of all components then plays a supporting role in the literal sense. Specifically tailored to such applications, the German distributor Acceed has now added the ultralight box computer FLYC-300 from the experienced manufacturer Neousys to its programme. With its flyweight of a mere 297 grams and an AI processor power of 100 TOPS, the controller is suitable for various applications in unmanned systems, in particular airborne vehicles, but also agricultural machinery and autonomous mobile robots of a smaller size, to name just a few further examples.
The new FLYC-300 from Acceed is a so-called LowSWaP computer (Low Size, Weight and Power). Here, the high-performance dwarf does not do without equipment for a large number of sensor and perception functions. Two GbE interfaces, two USB 3.2 connections and two GMSL2 ports are available for the integration of sensors and HDR or 3D cameras. This enables real time video analysis applications, for example when recording drone images, for environmental monitoring or securing infrastructure. Both camera inputs have FAKRA-Z-connections. For drone flight control, the FLYC-300 can communicate seamlessly via the configurable UART, Ethernet and CAN channels. The installation of 5G/4G modules for image and data transfer is also supported.
As a processor, the Jetson-Orin-NX module from Nvidia is used, optionally as a 16GB or 8GB version. It is the module with the smallest Jetson form factor which nevertheless achieves an AI output of up to 100 TOPS.
The wide voltage input range can be used for Softpack rechargeable batteries sized between 1S and 14S (equivalent to 12 V to 60 V direct current). Interesting for constructors: the FLYC-300 is available in two versions, with or without casing.
According to Neil Liu, Product Manager at Neousys Technology, the FLYC-300 concept follows the target “[...] to push the boundaries of unmanned systems by combining vision modules with the high-output but efficient Nvidia Jetson-SoM. The LowSWaP construction and interface design make integration and provision particularly easy, thus opening hitherto unknown drone and robot AI capabilities.”
In addition to those from further renowned manufacturers, the AI platforms from Neousys are available from the official distributor Acceed. The programme focuses on industrial Ethernet, embedded AI, ready-for-use IPCs for automation, building management, logistics, machine vision as well as research and development.
www.acceed.com
Computers for the intelligent control of unmanned vehicles and stationary robots, also in industrial surroundings for a longer period with AI-based applications. However, manufacturers and constructors are faced with a special type of challenge when handling flying devices, e.g. drones which are applied in an industrial context.
The weight of all components then plays a supporting role in the literal sense. Specifically tailored to such applications, the German distributor Acceed has now added the ultralight box computer FLYC-300 from the experienced manufacturer Neousys to its programme. With its flyweight of a mere 297 grams and an AI processor power of 100 TOPS, the controller is suitable for various applications in unmanned systems, in particular airborne vehicles, but also agricultural machinery and autonomous mobile robots of a smaller size, to name just a few further examples.
The new FLYC-300 from Acceed is a so-called LowSWaP computer (Low Size, Weight and Power). Here, the high-performance dwarf does not do without equipment for a large number of sensor and perception functions. Two GbE interfaces, two USB 3.2 connections and two GMSL2 ports are available for the integration of sensors and HDR or 3D cameras. This enables real time video analysis applications, for example when recording drone images, for environmental monitoring or securing infrastructure. Both camera inputs have FAKRA-Z-connections. For drone flight control, the FLYC-300 can communicate seamlessly via the configurable UART, Ethernet and CAN channels. The installation of 5G/4G modules for image and data transfer is also supported.
As a processor, the Jetson-Orin-NX module from Nvidia is used, optionally as a 16GB or 8GB version. It is the module with the smallest Jetson form factor which nevertheless achieves an AI output of up to 100 TOPS.
The wide voltage input range can be used for Softpack rechargeable batteries sized between 1S and 14S (equivalent to 12 V to 60 V direct current). Interesting for constructors: the FLYC-300 is available in two versions, with or without casing.
According to Neil Liu, Product Manager at Neousys Technology, the FLYC-300 concept follows the target “[...] to push the boundaries of unmanned systems by combining vision modules with the high-output but efficient Nvidia Jetson-SoM. The LowSWaP construction and interface design make integration and provision particularly easy, thus opening hitherto unknown drone and robot AI capabilities.”
In addition to those from further renowned manufacturers, the AI platforms from Neousys are available from the official distributor Acceed. The programme focuses on industrial Ethernet, embedded AI, ready-for-use IPCs for automation, building management, logistics, machine vision as well as research and development.
www.acceed.com
