What is LTE Requirement ?

Peak data rate 100Mbps (DL) and 50Mbps (UL) to 20MHz
Throughput increased by 3-4 times and 2-3 times for the downlink to uplink from HSDPA Rel6 (DL=14.4Mbps, to use transmitter sites that have been used in UTRA/GERAN
Throughput increased by 3-4 times and 2-3 time UL=5.7Mbps)
Spectrum efficiency by continuing as for the downlink to uplink from HSDPA Rel-6 (DL=14.4Mbps,UL=5.7Mbps)
Flexible use of spectrum (1.4,3,5,10,15,20MHz)
Lower latency :
–Radio access network latency ( user plane UE –RNC-UE ) below 10 ms
The ability of the use mobility up to 350 km / hour
Coverage up to a radius of approximately 5 km
Enhance MBMS ( Multimedia Broadcast / Multicast Service ) efficiency ( 1 bit/s/Hz)
Retaining 3GPP RAT ( Radio Access Technology ) which already exist and support internetworking with him.
Architecture simplification , minimization and packet –based interface , full IP

What Are the Requirements for LTE?

LTE (Long-Term Evolution) is a high-speed wireless communication standard designed to provide fast and reliable mobile broadband services. To achieve this, certain technical and infrastructure requirements must be met by both the network and the devices.

Key LTE Requirements

Network Infrastructure: A high-performance base station (eNB) and core network (EPC) capable of handling fast data transfer, low latency, and large traffic volumes.
Radio Spectrum: The network needs to operate within specific frequency bands. These bands allow LTE to provide efficient data transmission without interference.
Device Compatibility: Devices (such as smartphones or tablets) must support LTE technology and be capable of handling high-speed data transmission with appropriate antennas and chipsets.
Data Throughput: LTE must support high data rates, with peak download speeds of up to 300 Mbps and upload speeds of up to 75 Mbps, depending on the network configuration.
Low Latency: LTE networks should offer reduced latency, typically around 10-15 ms for better performance in real-time services like voice and video calls.
Quality of Service (QoS): The network must prioritize traffic based on the type of service (e.g., voice, video, data), ensuring a consistent and reliable experience for all users.

Why These Requirements Matter

Meeting these requirements ensures LTE can deliver high-speed internet, low-latency communication, and efficient use of spectrum. As a result, users enjoy fast browsing, smooth video streaming, and reliable mobile services across different devices and locations.