Network Integrity Assurance Technologies (NIAT) Sdn. Bhd. conducted multiple field tests on private L-Band mesh connectivity in remote locations to evaluate the system’s performance and reliability.
These Proof-of-Concept (PoC) trials aimed to assess the network’s ability to deliver stable and efficient connectivity via Mesh-to-Multipoint node in areas with limited or no internet access.
During the testing, the team conducted assessments covering key performance metrics such as deployment simplicity and adaptability across diverse applications. Simultaneously, they evaluated network performances including latency, bandwidth, and reliability.
The results demonstrated a successful implementation of point-to-multipoint node configurations, consistent link connectivity with minimal downtime, acceptable average latency during uptime, effective bandwidth utilization, optimized node distances for efficient communication, and the network’s ability to handle peak loads.
This success highlights the potential of L-Band Mesh connectivity to enhance communication and operational efficiency in remote areas, making it a viable solution for industries as maritime, oil and gas, defense sector, and rural broadband access.
L-Band Mesh
L-Band Mesh technology is a private wireless communication system designed for mobility and is capable of being configured as point-to-point, point-to-multipoint, or multipoint-to-multipoint. Once deployed, the mesh network allows all IP devices, such as mobile devices, IP cameras, and computers, to connect and transmit all types of IP traffic, including voice, video, and data. As an IP network, Mesh technology can also seamlessly integrate with any existing or legacy IP networks, whether they are wired or wireless.
NIAT is excited to offer this advanced Mesh technology to our clients and we are confident in its ability to bring significant benefits to their operations. We are eager to collaborate with our clients in implementing this innovative solution and help our clients harness its full potential for enhanced connectivity and communication.