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Industrial Internet Testbeds

Industrial Internet Consortium

Industrial Internet Consortium

A testbed is a controlled experimentation platform, conforming to an Industrial Internet Consortium reference architecture, where solutions can be deployed and tested in an environment that resembles real-world conditions. Testbeds explore untested technologies or existing technologies working together in an untested manner. Testbeds generate requirements and priorities for standards organizations, and culminate in new (potentially disruptive) products and services..

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Automated Wireless Testbeds

octoBox

OctoScope, Inc.

octoBox - OctoScope, Inc.

The STACK-BENCHTOP, STACK-16 and STACK-SNB personal testbeds, emulating real-life wireless environment, range in size from a desktop/benchtop model to refrigerator-sized testbeds on wheels. The compact size of the octoBox enables wireless test and development engineers to perform fast, comprehensive and repeatable testing in their offices rather than inside large isolation chambers or in test houses. OctoBox testbeds support 802.11ac or 4G MIMO devices.

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802.11ad Testbed, Reference Solution

Keysight Technologies

Keysight Technologies

Generate and analyze 802.11ad fully coded PHY waveforms for complete component, subsystem, and system performance at baseband, IF, and millimeter-wave. This Reference Solution combines Keysight Technologies software and hardware to provide a flexible testbed for 802.11ad waveform generation and analysis. Software provides the flexibility to generate and analyze 802.11ad waveforms with a wide range of different attributes. Hardware provides the flexibility to support baseband, IF, and millimeter-wave test planes. Create waveform sequences with unique 802.11ad packet structures including Modulation Coding Scheme (MCS), packet length, payload data type, and interpacket gap length, etc.

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Battery Pack Power HIL Testbed

8610

Chroma ATE Inc.

8610 - Chroma ATE Inc.

Chroma ATE launches the 8610 Battery Pack Power HIL Testbed for testing battery systems and components of new energy vehicles, incl. the battery module, battery management system, and cooling/heating system. Various hardware options are available for integration, such as a DC power supply, battery charge/discharge system, digital meter, Hi-Pot tester, and short-circuit and overvoltage protection devices.

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Software Defined Radio

NI

NI

NI software defined radios (SDRs) provide the design solution to rapidly prototype wireless communications systems, which leads to faster results. You can present applications with real-world signals such as multiple input, multiple output (MIMO) and LTE/WiFi testbed.

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Icarus Nodes

NIT Laboratory

NIT Laboratory

NITlab has developed powerful Wi-Fi nodes, called ICARUS, in order to support the increasing demand of state-of-the-art resources for experimentation in NITOS facility. Experimenters are able to run and evaluate demanding processing algorithms and protocols in a large scale testbed. Icarus nodes are equipped with 802.11a/b/g and 802.11a/b/g/n wireless interfaces and feature new generation intel 4-core cpu's and new generation solid state drives.

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Pulse Radar Reference Test Solution

Guzik Technical Enterprises

Guzik Technical Enterprises

Compact Reference Solution with ADP7104, M8195A, WR15CCU, WR15CCD, N5183B combines commercial off-the-shelf COTS modular hardware and software from Guzik, Keysight Technologies, KJ Microwave and Virginia Diodes, which provides a flexible testbed for radar waveform generation and analysis. Generate and analyze pulse radar waveforms. Pre-correct waveforms for overall channel response. Supports many topologies for radar transmitter / receiver testing (IQ, IF, RF, microwave, millimeter-wave).

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USRP Software Defined Radio Device

NI

NI

The USRP Software Defined Radio Device is a reconfigurable RF device that includes a combination of host-based processors, FPGAs, and RF front ends. The USRP Software Defined Radio Device include options that range from lower cost options with fixed FPGA personalities to high-end radios with a large, open FPGAs and wide instantaneous bandwidth. These devices can be used for applications such as multiple input, multiple output (MIMO) and LTE/WiFi testbeds, SIGINT, and radar systems.

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Patch Panel Automation Switch

Echola Systems LLC

Echola Systems LLC

Echola's Optical Patch Panel Automation switch allows test engineers/system developers to dynamically reconfigure testbed connections from remote. It reduces test configuration time as they don't need to make any physical fiber connections for each set of tests, so more testing can be performed with fewer resources. It provides all-optical connectivity with zero latency and can be used with any protocols and speed. Unlike O-E-O (optical to electrical to optical conversion) switches you don't need expensive transceivers for each port. The all-optical connectivity also allows systems under test to be tested without introducing another variable (ie, another conversion layer which could introduce significant latency). The patch panel automation switch allows users to configure, control and monitor the device from remote using any standard internet browser, a command line interface (CLI) via Telnet or SSH and SNMP v2c. The event notifications are supported through Syslog. It can be automated using TCL based scripts.