Like many organizations around the world, the Bluetooth Special Interest Group (SIG) has made a full transition to remote operations, finding new ways to maintain the same levels of service and innovation as if we were in the office. Our group and committee meetings have gone virtual, and we have built important tools and capabilities to support working groups during specification validation that helped keep specification work moving forward in a challenging time.

Virtual Meetings and Testing

Virtual meetings provide an effective platform for group collaboration. Bluetooth® community members and staff created a remote IOP (interoperability prototype) testing capability, hosted by the Bluetooth SIG, that is effectively helping to keep specifications in development moving forward. Using the remote IOP program, members can send their prototype devices to the Bluetooth SIG for inclusion in the IOP testing space. They can then connect to their prototypes remotely to trigger the necessary testing behavior.

Benefits of Remote Testing

Apart from the obvious health and safety advantages of avoiding in-person testing during a global pandemic, remote IOP testing has yielded a number of surprising benefits that make it a serious long-term option.

Before COVID-19, the Bluetooth SIG organized and hosted a handful of IOP testing events every year, each in different locations around the world. Varying testing dates and locations broadened opportunities for developers and engineers across multiple industries and from a wide range of countries to come together, hopefully at least once or twice a year, to conduct Bluetooth® interoperability testing for their products. Moving to a remote solution gives members more flexibility to collaborate at the times that work best for their schedules, allowing them to conduct testing with more members at faster intervals.

Furthermore, there are noticeable travel costs associated with sending entire teams around the world to perform in-person testing. By offering a remote option, organizations can reduce expenses while taking advantage of test scheduling flexibility.

Another advantage of using a remote platform is the option to record interoperability testing communications. It can help members optimize communication in situations where language and time zone barriers may be a challenge as well as serve as a point of reference for helping testers streamline their processes as they move forward.

That’s not to say that remote testing does not offer its share of challenges. With remote IOP testing events, there are no consequences should a participant register and fail to attend. This can make it difficult to translate participation numbers into successes. Also, while participant time zones are not a significant issue with remote testing sessions, they are not completely irrelevant. Bluetooth SIG staff need to make a concerted effort with participants to extend support in situations where time zones are significantly different. Yet, despite these challenges, the benefits still outweigh the drawbacks.

Bluetooth® SIG IOP Testing Events

Year-Over-Year Comparisons 

A total of 31 IOP testing events were conducted throughout the second half of 2019 (23 formal and 8 informal). In the second half of 2020, after the Bluetooth SIG switched to a purely remote IOP platform, 28 total IOP testing sessions were conducted (20 formal and 8 informal); a difference in three testing opportunities.

Comparing year-over-year, while a few more IOP testing events were conducted in 2019, the peaks and valleys of session availability were extreme. Compared to 2020, total remote IOP testing sessions supported greater testing consistency throughout the year.

Since the Bluetooth SIG’s transition to a full remote platform, 11 specifications successfully completed testing using a remote platform. While in-person IOP testing events are unlikely to completely go away, especially once it is safe for global innovators to come together again, remote IOP testing sessions will likely be a fixture in Bluetooth® processes moving forward. Even when we can meet again face to face, using a remote platform enables testing at any time in any time zone.

FEATURED DOWNLOAD

Understanding Reliability in Bluetooth Technology

Download this detailed discussion on reliability in wireless data communication and the techniques Bluetooth technology uses to increase reliability.

INSTANT DOWNLOAD

Is Remote IOP Testing Here To Stay?

Like many organizations around the world, the Bluetooth Special Interest Group (SIG) has made…

Bluetooth 5.2新機能のポイントを10分で解説!(日本語字幕)

この動画では2020年1月に発表されたBluetoothバージョン5.2新機能の概要を中心に話します。Enhanced Attributeプロトコル(EATT)、LE Power Control (LEPC)、Isochronous (アイソクロナス)チャネルなど、これらの各機能について詳しく説明します。最後に、アイソクロナスチャネルを利用した「LE Audio」と呼ばれる次世代のBluetoothオーディオについて日本語翻訳付きで解説します。

The Bluetooth Internet Gateway Study Guide

According to the ABI report Installed Base of IoT Devices by Connectivity Technology, published…

Top Bluetooth Developer Resources of 2020

Every year, the Bluetooth® developer community challenges the limits of wireless connectivity, and each…

Wireless Connectivity Options for IoT Applications

When it comes to wireless connectivity, not every technology is a good fit for…

Designing and Developing Bluetooth® Internet Gateways

Design and implement your own Bluetooth® Internet Gateway (BIG) working prototype and see for yourself how BIGs allow applications to exchange data with Bluetooth devices from anywhere in the world.

Wireless Connectivity Options for IoT Applications - Asset Tracking

If you recall from the previous article in this series, we covered the application…

How Bluetooth Technology Uses Adaptive Frequency Hopping to Overcome Packet Interference

Interference is one of the biggest challenges for any wireless technology in providing reliable…

A Technical Overview of LC3

An Introduction to LE Audio Over the past two decades, since its inception, Bluetooth®

An Introduction to Bluetooth Low Energy for Swift Developers

All smartphones support Bluetooth® Low Energy (LE) and it is used in all manner…

Building a Sensor-Driven Lighting Control System Based on Bluetooth® Mesh

A technical examination of which Bluetooth mesh models to use in different types of…

Bluetooth Security and Privacy Best Practices Guide

This guide is intended to help implementers better understand why certain available security and…

Advanced Bluetooth for Android Developers

Android developers can take this guided tour of the most recent features and interesting…

How to Deploy BlueZ on a Raspberry Pi Board as a Bluetooth Mesh Provisioner

This step-by-step study guide will teach you: How to rebuild the kernel on a…

The Bluetooth LE Security Study Guide

Learn about fundamental security concepts, the security features of Bluetooth Low Energy, and gain some hands-on experience using those features in device code.

Bluetooth Direction Finding: A Technical Overview

This comprehensive overview examines how two new Bluetooth direction finding methods can enable location services solutions that support high-accuracy.