Littleton, Massachusetts, January 7, 2020 - octoScope®, the leader in accurate, repeatable and automated wireless personal testbeds, completed 2019 with an impressive year-over-year (YoY) company growth of 70 percent. Supporting this evolution, the company released a number of new products, expanded its office and production space, added several strategic new hires, continued to increase its IP portfolio with new patent filings and registered trademarks, and participated in events across the globe.
The company grew its overall team in 2019 by nearly 40 percent. Notably, Steve Shearer joined octoScope as chief scientist. Prior to octoScope, he most recently was a distinguished engineer at the Wi-Fi Alliance, and previous positions were held at Silver Spring Networks, ST-NXP, etc. Mikayla Cohen was hired as director of software engineering where she leads the software architecture and software R&D efforts for wireless test equipment. Previously, she held roles at Charter Communications, Viavi Solutions, Siemens PLM Software, and Colorado Technical University. octoScope also welcomed Bob Burk who is responsible for final system test and automation, new product introduction, manufacturing engineering, cost reductions, production workflow, test procedures and data tracking. His earlier experience includes CommScope, Thomson Grass Valley, Teradyne and more. In addition, octoScope hired several key software developers and systems engineers.
This growth also contributed to the expansion of company headquarters in Littleton, Massachusetts, increasing its office and production space by 60 percent. To support the continued growth, the company will look to fulfill several additional positions in 2020, which are listed here.
2019 was also a year of exciting new technology achievements and product announcements for octoScope. New product releases included:
octoScope presented seminars across the globe in 2019. Events were held in the UK, France, the Netherlands, Israel, Korea, China, Taiwan and the United States. Footage of octoScope’s recent “Wi-Fi 6 and Broadband Forum Test Methods” seminar can be viewed here. octoScope also had the privilege of exhibiting at CES 2019 alongside Intel and Comcast, showcasing its octoBox personal testbed.
“octoScope’s growth has been propelled by the new generation of wireless technologies: Wi-Fi 6, IoT and 5G. Using our octoBox wireless personal testbeds, operators, device manufacturers and chipset vendors can ensure that the billions of new devices they deploy will function in the field as expected,” said Fanny Mlinarsky, President of octoScope. “In 2020 we will continue advancing the octoBox testbed to support new wireless technologies and new frequency bands. We will focus on Wi-Fi 6, OFDMA test and performance visualization techniques, roaming and band steering in a mesh environment. At the same time, we will continue on the path of higher testbed integration with more powerful test instruments, making the octoBox more functional and more affordable so that every wireless engineer has access to a sophisticated personal wireless testbed to improve their productivity.”
Stackable and configurable octoBox personal testbeds are completely isolated from external interference and can be used at an engineer’s office or lab bench.
Each octoBox testbed is controlled by a dedicated Node.js web server accessible via a browser UI for manual control, or via REST API for test automation. The server provides the time base for the testbed and controls the built-in instruments, DUT configuration, traffic, and test flow. Test results are saved in a MongoDB database, enabling multiple teams to easily collaborate by sharing the test automation scripts and test results.
octoScope is the market leader in isolated, repeatable and automated wireless personal testbeds. Our patented technology redefines the accuracy, stability, economics and value of over-the-air wireless testing. The octoBox testbed is configurable for automated regression test sequences with a range of airlink conditions and interference scenarios. The octoBox testbeds are scalable to support a single DUT or multi-node mesh systems under test.
The testbeds feature powerful technologies to evaluate the behavior and performance of a broad range of wireless devices and systems. The tested capabilities include protocol monitoring, test traffic generation, motion and multipath emulation, interference generation and device emulation.
SVM Public Relations