A complete toolkit to assist operators to monetize future 5G networks
AirDensity is a best-in-class indoor small cell, designed specifically to solve the indoor mobile notspot problem. By placing AirDensity in enterprises and public access areas improves cellular signal quality, and thus enables great user experience for indoor users.
AirUnity is a multi-award-winning end user installed indoor LTE-A small cell with integrated LTE relay backhaul, designed specifically to solve the indoor mobile hotspot problem and dramatically improve network efficiency. Placing the small cell indoors right at the hotspots in enterprises and public access areas improves cellular signal quality and covering an area of up to 30,000 sq ft and thus enables greater experience for indoor users. In addition, AirUnity also provides extended outdoor coverage in the region of 100 meters.
AirVelocity is a revolutionary indoor, high performance, LTE-Advanced, and Wi-Fi small cell, designed to bring Public Access LTE networks to indoor spaces. AirVelocity reduces the indoor mobile notspots and creates much greater indoor coverage for the end user.
AirHarmony 1000 is a compact and versatile 4G LTE Micro base station provides the outdoor Micro layer of a Heterogeneous LTE-Advanced network deployment (HetNet). Latest advanced 3GPP feature sets (software upgradeable) include support for SON and advanced interference mitigation techniques which enables N=1 frequency re-use with the Umbrella Macro cell.
Airspan’s AirSpeed is a range of LTE-A (FDD or TDD) outdoor small cell with an integrated wireless backhaul connection and is used where wireline backhaul is not available or not feasible.
AirStrand is an LTE licensed or lightly licensed outdoor strand-mount small cell with a single connection that provides both DOCSIS for backhaul connection and power. Designed for rapid low-cost installation that allows operators to accelerate network densification in areas where traditional small cells are not financially feasible or where regulatory zoning hurdles significantly impede traditional outdoor small cell deployments.