You must have strong experience in designing and developing OAM functionality for 4G/5G Core and Radio Access Networks.
You should have expertise in OAM/FCAPS subsystem design, including distributed architectures using OpenStack/Kubernetes.
Proficient in C/C++ and Linux programming, with deep understanding of OAM architecture and design.
Familiar with protocols like Netconf, YANG, and JSON/REST for network management.
Exposure to containerization and microservices development, including Kubernetes, Docker, Helm, Ceph, and CNCF projects.
Knowledge of 3GPP TM specifications, and good understanding of TR-069, ConfD, CPRI, and FPGA interfacing is a plus.
Capable of interacting with operators, gathering requirements, and supporting maintenance and troubleshooting of OAM solutions.
Qualifications
Bachelor's or Master's degree in Computer Science, Engineering, or a related field.
Skills
C / C++,Linux,OAM,RAN,FCAPS,Netconf, YANG, JSON, REST APIs
Your Team
You are joining a cutting-edge global technology company that prioritizes research and development for innovative products, having attained CMMi Level 5 certification. Get ready for some exciting work ahead!
Your Job
You will design, develop, and implement OAM functionality for 4G/5G Core and Radio Access Networks, ensuring robust and scalable solutions.
You should have the ability to adapt OAM functionality to distributed architectures using OpenStack and Kubernetes, supporting containerized and virtualized environments.
You will collaborate with operators and cross-functional teams to gather requirements, manage maintenance, and resolve technical issues.
You will develop and maintain OAM/FCAPS subsystems using C/C++ and Linux programming, ensuring alignment with architecture and design principles.
You should have the ability to implement and validate network management protocols such as NETCONF, YANG, and JSON/REST.
Ability to contribute to container and microservices-based development, including Kubernetes, Docker, Helm, Ceph, and other cloud-native technologies.
You will ensure compliance with 3GPP TM specifications and support integration with TR-069, ConfD, CPRI, or FPGA interfaces where required.
