LTE (4G) RAN Air Interface will offer to participants a deep understanding on LTE Radio Access Network (RAN) physical layer, including air interface principles, radio channels, signals and procedures
MIMO technology for LTE (4G) will offer delegates a good and deep understanding on MIMO technology, precoder, Layer mapping, CSI feedback, Transmission modes, transmission schemes, CSI-RS, DMRS, spatial multiplexing (SMUX), transmit diversity, beamforming, antenna ports, transmission rank, SFBC
LTE (4G) RAN Planning will offer delegates a good and deep understanding on LTE NR Radio Access Network (RAN) planning, with emphasis on LTE capacity and coverage
LTE (4G) Dynamic Spectrum Sharing (DSS) will offer delegates a good and deep understanding on LTE Dynamic Spectrum Sharing solution in conjunction with NSA or SA deployment
LTE (4G) RAN Signaling Analysis will offer delegates a good and deep understanding on the trace log files analysis, RRC & MAC protocols, signaling flows, messages and signaling procedures, LTE RAN QoS and security, idle mode, connected mode, handover, CSFB, SRVCC, WiFi call, VoLTE
LTE (4G) RAN Network Optimization will offer delegates a good presentation and deep understanding on the LTE RAN network optimization process, including signaling analysis, parameter configuration and LTE RAN procedures
Voice over LTE (VoLTE) Signaling Analysis will offer delegates a good presentation and deep understanding on IMS, SIP signaling, Diameter, H.248 MEGACO, MMTel server, VoLTE E2E signaling analysis, SIP to SIP call flow, SIP to PSTN call flow.
Voice over LTE (VoLTE) RAN Design & Optimization will offer delegates a good and deep understanding on , VoLTE QoS, VoLTE RAN design, SRVCC, CSFB, VoLTE RAN Optimization, VoLTE protocol parameters, VoLTE over 5G NSA, VoLTE and ENDC services, VoLTE KPIs and performance .
NB-IoT RAN Design & Dimensioning will offer delegates a good and deep understanding on NB-IoT Radio Access Network (RAN) Design considering LTE and NB-IoT inband coexistence including transport network S1 and X2 interfaces, spanning from physical layer parameters up to network TA, PCI, RACH and Paging Dimensioning