Tracking non-powered assets presents a very different challenge compared to traditional vehicle telematics. Assets such as trailers, containers, pallets, bins, and remote equipment lack a dedicated power source, so every update and transmission must be optimized to maximize battery life.
This creates a constant balancing act between visibility and power consumption. Businesses want reliable asset tracking with frequent updates and fast alerts, but aggressive reporting drains batteries quickly and increases maintenance requirements.
Digital Matter’s “Deploy Once” philosophy was built to solve this problem. By combining low-power hardware, intelligent tracking logic, LPWAN connectivity, and cloud-based location technologies, Digital Matter devices can achieve up to 10+ years of battery life while still delivering meaningful operational visibility.
The result is battery-powered GPS tracking at a massive scale with reduced operational overhead, lower servicing costs, and simplified deployments across distributed fleets of physical assets.
Battery-powered IoT tracking is about managing tradeoffs. Every action performed by an asset tracking device consumes power:
The more often these actions occur, the faster battery life declines. This is why long-life GPS asset tracking depends heavily on the technologies chosen underneath the hardware.
Connectivity has a major impact on battery performance. Traditional high-bandwidth cellular technologies were designed for powered GPS asset applications such as vehicles and mobile broadband devices. They are not optimized for low-power IoT deployments.
LPWAN technologies such as LTE-M, NB-IoT, and LoRaWAN® are different. These networks are designed specifically for low-power, intermittent communication. This allows battery-powered GPS trackers to remain in ultra-low power states for long periods while still transmitting reliable updates when needed.
The result is:
For businesses tracking thousands of non-powered assets, LPWAN connectivity becomes a major operational advantage.
Location acquisition is another major driver of power consumption. Traditional GPS tracking relies on GNSS satellite positioning. While highly accurate, obtaining a GPS fix requires the device to remain awake and listen to satellite signals.
In difficult environments such as urban areas, warehouses, shipping yards, and metal enclosures, the process can take longer and consume more battery power.
To reduce this drain, Digital Matter devices use additional location technologies, including:
These methods consume significantly less power than traditional GNSS while still providing useful location visibility.
Digital Matter’s family of Edge devices introduces another major advancement in low-power tracking. Devices such as the Oyster Edge and Yabby Edge shift much of the location processing workload from the hardware to the cloud.
Instead of calculating its position on board, the device scans nearby Wi-Fi access points and uploads their identifiers. The cloud platform then resolves the location externally.
This dramatically reduces processing demands on the tracker itself and can extend battery life by 5-10x compared to traditional GPS-only workflows. This approach is particularly valuable for non-powered assets operating in mixed indoor and outdoor environments.
Long battery life does not depend solely on battery size. It depends heavily on intelligent software behavior and adaptive power management.
Adaptive tracking automatically adjusts reporting behavior based on movement and operational activity.
For example:
This allows businesses to maintain useful visibility during active operation without wasting battery power during long idle periods.
Adaptive tracking is especially useful for assets with inconsistent movement patterns, like:
Modern trackers use onboard 3-axis accelerometers to detect movement, vibration, impact, or tilt events. Instead of waking at fixed intervals, the device remains asleep until movement occurs. This approach significantly extends battery life while still enabling:
Movement-based tracking is one of the most effective ways to reduce unnecessary transmissions across large asset fleets.
When an asset is idle, the battery GPS tracker enters a low-power sleep mode. During this period, the radios are disabled, the GPS systems shut down, and processing activity is minimized
The device continues monitoring for wake events such as movement or scheduled heartbeat updates while consuming very little energy. This sleep behavior is a major reason why Digital Matter devices can achieve long battery life across years of operation.
Even stationary assets require periodic confirmation that they remain secure and connected. Heartbeat updates provide this functionality. A tracker may report once daily or weekly to confirm:
These low-frequency updates maintain visibility without dramatically impacting battery life.
Digital Matter offers several hardware families designed around different deployment requirements and power profiles.
The Yabby and Barra families are compact, lightweight devices designed for high-volume deployments where cost efficiency and simplicity matter.
Trackers Yabby Edge and Barra Edge commonly use standard off-the-shelf AA or AAA lithium batteries and are well-suited to:
Their compact size and low operational overhead make them ideal for businesses deploying tracking across large numbers of lower-value assets.
The Oyster family has become an industry standard for non-powered asset tracking. Designed for rugged outdoor environments, Oyster devices like the Oyster3 and Oyster Edge feature:
The Oyster range is widely deployed across trailers, containers, and industrial equipment where reliable long-term visibility is required.
The Remora family is designed for extreme battery longevity and aggressive tracking deployments.
Using large D-cell LTC batteries, Remora devices like the popular Remora3 support:
This makes the Remora range particularly effective for high-value assets where preventing theft and maintaining operational visibility are top priorities.
The Manta family introduces a slim form factor combined with Fusion location technology. The Manta Fusion combines several factors to improve visibility while optimizing battery efficiency, including:
This approach allows the device to operate effectively across both indoor and outdoor environments while maintaining long battery life.
Battery-powered tracking supports a wide range of industries and operational environments.
Battery-powered trackers can be covertly installed on trailers and dollies to provide years of uninterrupted visibility. This allows businesses to:
Because no external power source is required, installation remains simple and scalable.
Rugged IP68-rated trackers are widely used on shipping containers, waste bins, and industrial storage assets.
These deployments often require devices that can:
Battery-powered IoT tracking enables this without requiring wiring or solar-powered infrastructure.
Low-cost tracking technologies support visibility across pallets, crates, and reusable packaging throughout the supply chain.
Deployments may use compact GPS trackers, Bluetooth tags and mobile gateway systems to improve inventory visibility and operational efficiency.
Battery-powered trackers support long-term monitoring of non-powered equipment across construction sites, utilities, and industrial operations.
These deployments help operators:
All while maintaining reliable long-term performance in harsh outdoor environments.
Digital Matter devices are already supporting large-scale deployments across industries worldwide.
Delete Group deployed Yabby Edge devices to track more than 600 waste bins across Finland. The deployment improved visibility across distributed assets, reduced manual tracking, and enhanced operational efficiency.
The low-power Edge architecture helped extend battery life while maintaining reliable indoor and outdoor location performance. Read full case study
AroFlo integrated battery-powered asset tracking into its job management software platform to help businesses improve operational visibility and equipment tracking. This integration enabled customers to monitor field assets directly within existing workflows while improving process efficiency.
“Compact, rugged, and with exceptional battery life given the size of the units, Digital Matter’s Oyster GPS and Yabby GPS devices are the perfect fit for trade business assets,” says Bradley Bristow-Stagg, Technical Manager at AroFlo. Read full case study
Battery Rescue deployed IoT asset tracking to support nationwide waste battery collection operations. They chose to implement Digital Matter devices like the Yabby Edge and the Barra Edge due to their ultra-rugged, battery-powered design and 4G compatibility.
The solution improved visibility across distributed collection assets while supporting safer handling and transport processes. Read full case study
Long battery life in GPS tracking is not determined by battery size alone. It depends on how often the asset needs to be seen, how the location is acquired, what connectivity technology is used, and how intelligently the tracker manages power consumption.
The right combination of LPWAN connectivity, smart tracking behavior, adaptive reporting, cloud-based location solving, and rugged hardware allows organizations to deploy tracking at scale without constant servicing or battery replacement.
With more than 25 years of experience designing low-power IoT hardware, Digital Matter continues to lead the market in battery-powered asset tracking technology.
Whether you need compact trackers for inventory visibility or rugged long-life devices for trailers and containers, Digital Matter provides flexible solutions built for scalable deployments.
Contact us today or use our helpful Device Finder to find the perfect device for you.