As the world gradually recovers from the changes and disruptions caused by the global COVID-19 pandemic, now, nearly two years after, the logistics industry has undergone a significant transformation, and continues to evolve.
The increased adoption of IoT (Internet of Things) and sensor-based technologies like RFID will drive the logistics industry to be more and more connected moving forward. From 2021-2026, the Global Connected Logistics Market is expected to hit a compound annual growth rate (CAGR) of 17.5% (source).
Following the growing market demand for connected logistics services around the world and IoT in the logistics industry, our miniature lidar-enabled Sizensor Solution was developed with the objectives of increasing the efficiency of logistics planning and operations resource management from parcel collection to final forwarding.
By combining automatic dimension capture and real time photo recording, the Sizensor Solution augments the functionalities of your warehousing and logistics handheld devices (such as industrial tablets and rugged phones), and acts as a real-time data-and-image tracking system.
The dimensional data and image collected using the Sizensor Solution is directly uploaded to cloud-based servers to allow for IoT in the logistics operations, and expedite data collection from initial parcel processing to the system mains. By removing the hands-on measuring during initial parcel handling, the Sizensor Solution eliminates potential human errors that may impact profitability due to miscalculations.
Wiseome’s Sizensor Solution is powered by a combination of our patented miniature laser ranging sensor, Mini Lidar, and a proprietary software application designed for handheld devices. This hardware and software solution serves frontline rugged handheld devices, and allows logistics service providers to not only capture dimension data, but keep a record of parcel conditions through a photo record. Sizensor Solutions enables freight management options for IoT connectivity in the logistics industry.