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Internet of Things-Compliant Platforms for Inter-Networking Metamaterials
Published in Christos Liaskos, The Internet of Materials, 2020
The BeagleBoard [1] is a low-power open-source single-board computer produced by Texas Instruments in association with Digi-Key and Newark element14. The BeagleBoard was also designed (see Fig. 6.12) with open source software development in mind, and as a way of demonstrating the Texas Instrument's OMAP3530 system-on-a-chip. Several variations of the BeagleBoard hardware have been available. The BeagleBoards can run a growing list of operating systems including Linux, FreeBSD, OpenBSD, RISC OS and SymbianOS, with support for Android in active development. Newer models also include onboard Wi-Fi networking. Several peripherals are included in the BeagleBoard hardware such as UARTs, SPI, I2C, CANbus, and of course IO pins as well as optional expansion boards are available. BeagleBone is the latest series of the BeagleBoard devices.
Experimental evaluation of occupancy lighting control based on low-power image-based motion sensor
Published in SICE Journal of Control, Measurement, and System Integration, 2021
Takuya Futagami, Noboru Hayasaka
Although there are several types of single-board computer currently on the market, including Raspberry Pi, Orange Pi, and BeagleBoard, the Raspberry Pi tends to be superior in terms of cost, power consumption, and computational power [33]. Furthermore, the frame difference [8] has been effectively implemented on a Raspberry Pi 3 model B, which was commercialized in 2017 [34], in [24]. Therefore, in this study, we also implement the frame difference on a Raspberry Pi 3 model B to construct the low-power image-based sensor. The Raspberry Pi 3 model B has an ARM Cortex-A 53 of a quad core CPU and 1.0 GB of RAM [34].