Skip to main content

WBA & LoRa Alliance® Explore New IoT Use Cases Incorporating Wi-Fi & LoRaWAN® Technologies

London – Sept. 24, 2019: Mobile operators, enterprises, cities and other key Internet of Things (IoT) market players gain access to a wealth of new IoT use cases by combining two unlicensed connectivity technologies, as illustrated in a new white paper released today by the Wireless Broadband Alliance (WBA) and the LoRa Alliance®. Developed with input from mobile carriers, telecom equipment manufacturers and advocates of both connectivity technologies, Wi-Fi & LoRaWAN Deployment Synergies: Expanding Addressable Use Cases For The Internet of Things illustrates new business opportunities that are created when Wi-Fi networks that are traditionally built to support critical IoT are merged with LoRaWAN networks that are traditionally built to support low data rate massive IoT applications.

Massive IoT applications are less latency sensitive and have relatively low throughput requirements, but they require a huge volume of low-cost, low-energy consumption devices on a network with excellent coverage, which can be achieved with Wi-Fi networks. The white paper addresses the growing popularity of IoT use cases in domains that rely on connectivity spanning large areas that are able to handle a huge number of connections, ultimately driving the demand for massive IoT technologies.

According to the paper, Wi-Fi connectivity covers short- and medium-range use cases at high data rates and may require more power, making it the preferable technology for people-centric mains-powered applications like real-time video and Internet browsing. Meanwhile, LoRaWAN covers long-range use cases at low data rates, making it the preferable technology for low bandwidth applications, including in hard to reach locations, such as temperature sensors in a manufacturing setting or vibration sensors in concrete.

When utilized in conjunction with one another, Wi-Fi and LoRaWAN networks optimize a number of IoT use cases, including:

  • Smart Building/Smart Hospitality: Both technologies have been deployed for decades throughout buildings, with Wi-Fi used for things like security cameras and high-speed Internet, and LoRaWAN used for smoke detection, asset and vehicle tracking, room usage and more. The paper identifies two scenarios for convergence of Wi-Fi and LoRaWAN, including accurate asset tracking and location services for indoor or near buildings, as well as on-demand streaming for devices with battery limitations.
  • Residential Connectivity: Wi-Fi is used to connect billions of personal and professional devices in homes, while LoRaWAN is used for home security and access control, leak detection, and fuel tank monitoring, and many other applications.  The paper recommends deploying LoRaWAN picocells that leverage Wi-Fi backhaul to the user set top box to expand coverage of home services to the neighborhood. These “neighborhood IoT networks” can support new geolocation services, while also serving as a communication backbone for demand-response services.
  • Automotive & Smart Transportation: Currently, Wi-Fi is used for passenger entertainment and access control, while LoRaWAN is used for fleet tracking and vehicle maintenance. Hybrid use cases identified in the paper include location and video streaming.

The paper also outlines a number of deployment models and details frontend and backend integration and security processes. Additionally, it provides several testimonials from organizations  regarding the power of their Wi-Fi / LoRaWAN deployments.

“Wi-Fi and LoRaWAN are two important  technologies utilizing the unlicensed spectrum, and they already address a large proportion of IoT use cases,” said Tiago Rodrigues, General Manager, WBA. “The Deployment Synergies paper highlights the ways in which these technologies are impacting private-public business models and enabling IoT services, while also identifying ways in which the technologies complement one another and can be used to further expand the Internet of Things.”

Cowritten by members of the WBA IoT Work Group and the LoRa Alliance, input for the paper was provided by a number of companies and organizations, including: BT, Boingo, BSG Wireless, Charter Communications, Connexin, Eleven-X, ER-Telecom, Orange, Tata Communications, Unity Media, Objenious, Semtech, Syniverse, Abeeway, Actility, BSG, Kerlink, Maxima Telecom, Microshare, Orbiwise, Senet, Siradel, Skyhook Multi-Tech, the Centre for Development of Telematics and Digital Catapult.

“The reality is that no one single technology is going to fit the billions of IoT use cases,” said Donna Moore, CEO and Chairwoman of the LoRa Alliance. “It is collaborative initiatives like this one with Wi-Fi that will drive innovation to solve important issues, leverage an even broader range of applications and, ultimately, ensure the success of global mass IoT deployments in the future.”

The WBA and LoRa Alliance intend to continue exploring the convergence of Wi-Fi and LoRaWAN technologies. Network operators and equipment manufacturers that are interested in contributing to future reports can contact the WBA for additional information.

 

Related Links:

Download the white paper from the LoRa Alliance website:

https://lora-alliance.org/resource-hub/wi-fi-lorawanr-deployment-synergies

 

Download the white paper from the WBA website:

https://wballiance.com/wi-fi-lorawan-deployment-synergies-2019/

 

 

###

 

About the Wireless Broadband Alliance

Founded in 2003, the vision of the Wireless Broadband Alliance (WBA) is to drive seamless, interoperable service experiences via Wi-Fi within the global wireless ecosystem. WBA’s mission is to enable collaboration between service providers, technology companies and organizations to achieve that vision. WBA undertakes programs and activities to address business and technical issues, as well as opportunities, for member companies.

 

WBA work areas include advocacy, industry guidelines, trials and certification. Its key programs include NextGen Wi-Fi, 5G, IoT, Testing & Interoperability and Roaming, with member-led Work Groups dedicated to resolving standards and technical issues to promote end-to-end services and accelerate business opportunities. WBA’s membership is comprised of major operators and leading technology companies, including Broadcom, BSNL, Orange, Facebook, Google, HPE Aruba, Huawei, Microsoft, NTT DOCOMO Ruckus, Shaw, SK Telecom and T-Mobile US.

 

The WBA Board includes AT&T, Boingo Wireless, BT, Cisco Systems, Comcast, Deutsche Telekom AG, GlobalReach Technology, Intel and KT Corporation. For a complete list of current WBA members, click here.

 

Follow Wireless Broadband Alliance: 

www.twitter.com/wballiance

http://www.facebook.com/WirelessBroadbandAlliance

https://www.linkedin.com/groups/50482

 

About the LoRa Alliance

The LoRa Alliance is an open, nonprofit association that has grown to more than 500 members since its inception in March 2015, becoming the largest and fastest-growing alliance in the technology sector. Its members closely collaborate and share experiences to promote and drive the success of the LoRaWAN protocol as the leading open global standard for secure, carrier-grade IoT LPWAN connectivity. With the technical flexibility to address a broad range of IoT applications, both static and mobile, and a certification program to guarantee interoperability, LoRaWAN has already been deployed by major mobile network operators globally, with continuing wide expansion into 2019 and beyond.

 

Follow the LoRa Alliance: 

www.twitter.com/LoRaAlliance

www.linkedin.com/company/loraalliance

https://www.youtube.com/channel/UCXYkZ2wgVIoGHLkmynVlYmQ

 

 

Media Contacts

LoRa Alliance

 

Emma Pearce

+44 79 2049 3438

emma.pearce@lora-alliance.com

 

Kiterocket for LoRa Alliance

Eric Lawson

+1 (480) 276.9572

elawson@kiterocket.com

 

Wireless Broadband Alliance

 

US Media Inquiries

Sonus PR for WBA

Micah Warren

+1 (609) 247-6525

wba@sonuspr.com

 

EMEA/ROW Media Inquiries

Sonus PR for WBA

Chevaan Seresinhe

+44 20 3751 0330

wba@sonuspr.com

Enter content here