I. Introduction In the automotive industry, ECUs are used to control and monitor electrical systems in vehiclesand other electronic equipment. As the complexity of automotive systems increases, the numberof required ECUs increases as well. This is because it is not uncommon for a single ECU to beresponsible for each important subsystem of the vehicle. For […]
In this lab, you will learn how to load a Deep Neural Network (DNN) model and performinferencing operations on the Raspberry Pi 4. (Note that much of this lab is derived from the DeepPicar project, shown in the pictures above. Ifyou want to know more about the project, check https://github.com/mbechtel2/DeepPicar-v2.) Part 0: Setup the project
Real-Time DNN Inferencing Read More »
Section I. Introduction Dr. Vigil-Haye’s problem is the lack of hardware to demonstrate networking architectures. Dr.Vigil-Hayes desired the creation of a modular wireless testbed that can be used to representdifferent and unique network architectures for her teachings. Each device would allow for anarray of antennas that could connect the different devices throughout the mesh network.
Wireless Modular Testbed Read More »
We’ve only started to tap into the potential of the brand new Pi Zero 2. Having finally received his board, [Brian Dorey] shows us how to boost your Pi’s WiFi, the hacker way. Inline with the onboard WiFi antenna can be found a u.FL footprint, and you just know that someone had to add an external
NEW PI ZERO GAINS UNAPPROVED ANTENNAS YET AGAIN Read More »
TiePie engineering has introduced two new members of the powerful high resolution WiFiScope series oscilloscopes, the WiFiScope WS6 DIFF and WiFiScope WS4 DIFF. These new differential WiFi oscilloscopes ar eevery day oscilloscopes built by engineers for engineers and can be used via an ethernet connection (LAN, WiFi or WAN) but also still with a USB
TIEPIE ENGINEERING WIFISCOPE WS6 DIFF AND WIFISCOPE WS4 DIFF OSCILLOSCOPES Read More »
Introduction 1.1 Motivation On August 14, 2003, North America suffered its largest blackout. Major 345 kV transmission lines dropped out of service, unbeknownst to operators, causing a cascading outage that extended across the Midwest, Northeast, and into Canada [1]. An investigation launched by the North American Electric Reliability Corporation (NERC) found that the blackout could
Design of an Inexpensive Residential Phasor Measurement Unit Read More »
This module acts as a tutorial to help users build a cluster of Nvidia Jetson TK1 cluster for Parallel Programming and Distributed Processing. The guide is a step by step procedure to build a 6 Node TK1 cluster with a shared network file system. Note that clusters can be of any length n≥2. Basic knowledge
Building a Nvidia Jetson TK1 Cluster Read More »
Called Kuiper Linux, it incorporates Linux device drivers for ADI products, and supports other hardware including Digilent Zedboard, TerASIC DE10-Nano and Digilent Cora “The reasoning behind creating this distribution is to minimise the barriers to integrating ADI hardware devices into a Linux-based system,” according to the company. “When starting with a generic Linux distribution, the kernel typically would have to be rebuilt
Custom Linux allows Raspberry Pi to drive ADI peripherals Read More »
NEXCOM, the leading provider of network communication appliances and uCPE, introduces the NSA 6310, based on NXP® Semiconductors’ latest multi-core Layerscape® LX2160A platform. The NSA 6310 offers better performance and pricing than the market’s existing solutions and also fulfills telecom and IoT operators’ demand for multi-technology and edge computing white box solutions to address operational environment and business needs. Edge
NEXCOM ELEVATES EDGE COMPUTING AGAIN WITH CUTTING-EDGE, ARM-BASED UCPE Read More »
Miromico AG has developed a LoRaWAN module with integrated Arm Cortex-M4 microcontroller, which was unveiled at Embedded World 2020. They claim it is the world’s smallest LoRaWAN module with integrated Arm Cortex-M4 microcontroller. Also referred to as the FMLR-6x-x-MA62x Module, Miromico module’s latest design is built around the Maxim MAX23625/26 microcontroller, which enables an Arm Cortex-M4, clocking at up to 96MHz from the internal oscillator of as low
MIROMICO’S FMLR-6X-X-MA62X, THE “WORLD’S SMALLEST” LORAWAN MODULE Read More »
