Six verticals for WiFi HaLow – as WiFi crowd preps new low-power IoT contender

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Wi-Fi HaLow is poised to rock in “commercial IoT deployments across a range of sectors,” according to the Wireless Broadband Alliance ( WBA ), which is in charge of initiatives and cooperation in the WiFi industry. In light of this, it has published a brand-new white paper outlining several potential deployment scenarios in various verticals, including wise homes, cities, buildings, retail, industry, and agriculture. Its argument is that the low-power Wi-Fi HaLow technology, which competes with long-range LoRa, NB-IoT, and LTE-M as well as small-bandwidth Bluetooth and Zigbee, expands WiFi into more Internet of Things applications.

In comparison to other low-power short-range and wide-area technologies for IoT, the white paper constantly promotes Wi-Fi HaLow’s prolonged range, better propagation, larger capacity, and long battery life. In the upcoming months, a WBA project team will test use cases and applications in different business verticals and provide an in-depth evaluation of its performance in terms of coverage, capacity, throughput, and reliability. In comparison to competing technologies, it will also assess the cost of management and deployment of Wi-Fi Low solutions.

Wi-Fi HaLow 802. In global ISM bands, 11ah uses sub-GHz spectrum frequencies between 850 and 950 MHz. These have benefits over the unregistered2. Far as the spectrum is less crowded and the frequency is lower, Wi-Fi is traditionally used in 4 GHz and 5GHz bands, which improves reliability, propagation, and coverage. As a result, Wi-Fi is essentially practical for lower-power wider-area IoT cases thanks to the HaLow version. Users of the technology, including Morse Micro, assert that it offers a 10-fold increase in range when compared to standard Wi-Fi.

In terms of coverage area, the marketing likewise suggests a 100-fold increase, and 1,000 times an increase in coverage volume. According to Morse Micro,”The IoT’s explosive growth has compelled a rethinking of Wi-Fi, exposing scientific gaps in range and power efficiency, and what role WiFi should play in an all-encompassing connected world.Wi—Fi HaLow… resolves these issues for Wi–Fi connectivity in IiT applications.” It asserts that its MM6108 silicon, which is currently being sampled, is the market’s “fastest, smallest, lowest-power, and longest-range” Wi-Fi HaLow chip.

The decision to demonstrate Wi-Fi HaLow in real-world scenarios is a significant milestone, according to Tiago Rodrigues, chief executive at the Mobile Broadband Alliance. Each scenario will highlight how the technology resolves connectivity issues that may have originally necessitated non-standard radio technology or incurred higher ownership costs. The wider industry will be able to properly roll out IoT without turning to specialized or non-IP technologies to gain the automation, insights, and business benefits thanks to a thorough analysis that will inform new deployment guides.

In order to summarize ( in quotes ) the WBA’s position on Wi-Fi HaLow applicability in six key markets, RCR Wireless has taken inspiration from the white paper.


HaLow provides solutions to a number of issues with bright home products. When compared to Wi-Fi, sub-GHz signals travel farther and penetrate more effectively. Less energy is needed to transmit these signals over long distances at frequencies of 4 GHz, 5, and 6. A one access point can serve massive homes. Devices outside, in basements, attics, and garages can have trouble communicating [at ]2. 4 GHz, slow down the home network, easy installation, lowers product returns and technical support, and benefits self-installed security cameras and hard-to-wire outdoors equipment.

” Wi-Fi HaLow natively supports IP-based protocols.” This makes installation and management simpler. Devices that need to connect to the cloud can be set up just as quickly as another Wi-Fi devices. ( For Zigbee, BLE, or Z-wave network technology, there is no need for a proprietary hub to be converted to the IP network. Up to 8,191 devices can be supported by Wi-Fi HaLow at a second access point. It can support a variety of CSA Matter-compliant wise home ecosystems and products. Additionally, it makes use of the Wi-Fi Alliance’s ( WPA3 ) highest level of security. “”


All kinds of smart-city IoT devices can be connected by Wi-Fi HaLow. Bus stops, traffic lights, cameras, utility meters, leak detectors, temperature sensors, and vibration sensors are a few examples. High capacity refers to the ability to cover large areas and allows for the attachment of many systems to a solitary access point. A mesh configuration can be used to expand the area where more coverage is required. It is a straightforward and affordable way to aggregate IoT devices over mitochondrial backhaul thanks to non-licensed spectrum, IP-based connectivity, and minimal operating costs.

Due to Wi-Fi HaLow’s significantly higher data throughput [than ] other LPWAN technologies, there are more devices and use cases on a city-wide network. Its low-energy features can make sure battery-operated devices can be used for months or years without needing maintenance. Solar power can be used for IoT devices with much transmit times, like cameras or electronic displays. This would enable the city to use monitoring devices in areas that might not have access to power, such as water meters or safety sensors. Last but not least, Wi-Fi HaLow supports emergency services with low overhead. “”


Wi-Fi HaLow offers many advantages over conventional technologies when it comes to offering full-building coverage. Most buildings can be covered by a one access point thanks to its signal penetration, which can extend through four or more floors. This makes the architecture simpler and prevents problems with current technologies. Its IP-native technology makes installation in already-built structures fast and easy. Its signal penetration and range even make it ideal for a wide range of IoT applications, both inside and outside of them, including those that monitor again gates or regulate the flow of frozen air in ventilation ducts.

Its trifecta of penetration, range, and [capacity ] simplifies the deployment of smart devices in new buildings and retrofitting older ones. It creates ubiquitous coverage… more simply than… Wi-Fi, BLE, or Zigbee… Wi-Fi HaLow also boasts excellent security thanks to its use of the WPA3 standard. Lastly, Wi-Fi HaLow’s capacity to remain unaffected by… 2. With all these advantages, Wi-Fi HaLow is future-proof for the widespread adoption of smart cameras, devices, and sensors in any smart building. 4/5 GHz devices… [means ] cell phones, smartwatches, wearables wo n’t cause connection issues or disrupt service. “”


Wi-Fi-HaLow [can help ] from suppliers of finished goods moving through logistics networks, store clerks stocking and selling goods, and customers in stores and restaurants. An overall decrease in infrastructure costs [to add ] new capabilities to a building is one of the first advantages for retailers. In 250,000 square foot warehouses and distribution centers, longer-reaching Wi-Fi HaLow just needs one or two access points to offer coverage. Connecting to a PoE Passthrough or USB connector on an existing Wi-Fi AP in the building can be just as simple as adding an additional wireless low-power ( AP ) to the structure.

Traditional mobile switches and servers are used to manage the connectivity. Electric point-of-sale devices like tablets and printers have a more dependable connection to one indoor HaLow AP in restaurant settings where staff may have to serve customers outside in the patio area. The 915 MHz band channel, which is unaffected by the overburdened 2, can be used to service a large retailer installing electronic shelf labels ( ESLs ), active shelf edge video displays, and security cameras. Another high-speed devices are using the 4 GHz spectrum. “”


Nothing interferes with Wi-Fi and Bluetooth like equipment and buildings. WisFi HaLow uses a lower frequency to operate rather than running wire to an extra access point, allowing for better propagation. As a sub-GHz iteration of Wi-Fi, it is easy to implement and can add an IoT bandwidth layer without interfering with 2. 4/5 GHz transmissions. By connecting through and around objects at greater distances, [it ] could be used to cover mining or lumber operations. An access point’s capacity to manage more than 8,000 devices entails support for numerous Wifi solutions.

The great data rate enables more data-intensive applications, and the low power capabilities of Wi-Fi Low enable battery-operated devices in the field to have a lifespan of years. The applications [for ] Industrial IoT are essentially limitless, and Wi-Fi HaLow’s robust feature set can standardize connectivity for a wide range of devices. Many different connectivity technologies can be replaced by this second standard, probably lowering overall IoT infrastructure costs and streamlining the network architecture. Additionally, Wi-Fi HaLow’s features may help with the connectivity issue with new and improved Wifi solutions for Industrial Internet of Things. “”


A bright agriculture or precision farming system is one use case where Wi-Fi HaLow would outperform other protocols. In this scenario, a sizable farm has numerous sensor nodes and actuators dispersed over an enormous area to monitor and control several aspects of farming operations, such as soil moisture, temperature and humidity, water level, and cameras and location/biometrics sensors to track crops and livestock. Irrigation valves, mineral dispensers, and pumps and gates in reservoirs and waterways are some examples of actuators. The Wi-Fi HaLow is a great option due to its range, power, and scalability.

” A farm can extend over a distance of some kilometers; Yet the farthest nodes and actuators can maintain a reliable connection thanks to Wi-Fi HaLow’s long-range capabilities. Its ability to pierce trees, vegetation, and structures also ensures firm connectivity. Low-power is essential because many nodes and actuators are battery-powered or use energy harvesting. For example, Wi-Fi HaLow’s capacity to support [lots ] of devices ensures the system can scale. Zigbee, LoRaWAN, or NB-IoT could also be used, but Wi-Fi HaLow is a powerful option due to its long range, reduced power, and compatibility. “”

Matthew Boyle

Matthew Boyle is a distinguished Smart City Consultant, renowned for his expertise in IoT (Internet of Things) and cutting-edge urban technology solutions. With a deep understanding of Smart City initiatives, Matthew excels in leveraging IoT innovations to transform urban landscapes into efficient, sustainable, and connected environments. His strategic insights and hands-on experience in urban planning, data analytics, and IoT implementation make him a trusted expert in the field. Matthew Boyle is your go-to consultant for navigating the complex world of Smart Cities, ensuring seamless integration of IoT technologies, and unlocking the potential of data-driven urban solutions. With his guidance, your city can thrive in the digital age, enhancing quality of life and fostering a sustainable future.

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