5G Core System Engineering Lead

E-SpaceArlington, TX
Onsite

About The Position

E-Space is bridging Earth and space to enable hyper-scaled deployments of Internet of Things (IoT) solutions and services. We are building a highly-advanced low Earth orbit (LEO) space system that will fundamentally change the design, economics, manufacturing and service delivery associated with traditional satellite and terrestrial IoT systems. We are looking for a 5G Core System Engineering Lead to own end-to-end system design and interface definition for E-Space's satellite 5G Core network. This role sits at the architecture level: you will decompose requirements across the full core service chain, define interfaces and information flows at every boundary, and drive the trade-offs that are unique to a satellite operator — session continuity across dynamic links, SIM management, OSS/BSS, charging and policy, and subscription management for a globally mobile user base. You will translate those trade-offs into concrete architectural decisions and drive them to closure across software, platform, and back-end engineering teams.

Requirements

  • Bachelor's or Master's degree in Electrical Engineering, Computer Science, or a related field.
  • 12+ years in system or network engineering, with deep focus on 5G SA Core or LTE EPC architecture.
  • Strong command of 3GPP 5G Core architecture: NAS protocols, SBI service interfaces, N-reference points, and session, policy, and charging management across AMF, SMF, UPF, UDM, PCF, AUSF, and CHF.
  • Demonstrated experience authoring interface specifications, system requirement documents, and trade study reports in a multi-team engineering environment.
  • Understanding of how network-layer constraints propagate into core protocol behaviour and how to address them through parameter tuning or architectural adaptation.
  • Experience with charging and policy architecture.
  • Proven ability to drive architecture decisions to closure across software, platform, and back-end engineering teams.
  • Strong written communication; able to produce precise interface specifications and trade-off analyses that stand on their own.

Nice To Haves

  • Experience with 3GPP NTN core adaptations (Rel-17/18): satellite access node (SAN) architecture, timer and window parameter adaptation for high-latency links, or UPF placement in non-terrestrial topologies.
  • Background in MVNO core architecture: roaming interfaces (N32/SEPP, Diameter S6a/S9), multi-PLMN federation, MVNO interconnect, or eSIM/SM-DP+ integration.
  • Familiarity with 3GPP SA2/CT4 specifications or direct standards contribution experience.
  • Experience with NEF or network exposure APIs and B2B API gateway architecture.
  • Background in SIM provisioning platforms, subscription management, or UDM/HSS data modelling.
  • Experience in a startup or fast-paced R&D environment where architectural decisions move at product speed.

Responsibilities

  • Own end-to-end 5G Core system architecture across the full service chain — AMF, SMF, UPF, UDM, PCF, AUSF, CHF, NEF — and produce architecture decision records (ADRs), system decomposition documents, and interface specifications that serve as the engineering source of truth.
  • Define and own interface specifications at every core domain boundary: interfaces between network functions, Nx reference points, UPF-to-data-network anchoring, and integrations with back-end platforms including charging, billing, and SIM provisioning.
  • Drive system-level trade-off analyses across competing constraints, latency-aware timer and retransmission parameter tuning, and complexity vs. flexibility trade-offs in policy and charging architecture.
  • Analyse how satellite-imposed constraints propagate into core design decisions.
  • Lead call-flow design for key 5G Core procedures in the satellite context.
  • Define requirements and interface contracts for back-end platform integration: CDR generation and CHF interface, SIM provisioning and UDM data model, BSS/OSS integration points.
  • Evaluate build-vs-buy options for core network functions and platform components; produce structured trade studies with quantified criteria covering performance, standards conformance, operational complexity, and cost.
  • Define system-level acceptance criteria and performance benchmarks — session setup latency, registration success rate, charging accuracy, failover recovery time — and coordinate with the integration lab team to ensure test coverage matches architecture scope.
  • Maintain alignment with 3GPP Rel-17/18 core specifications (SA2, SA5, CT4); identify where standard assumptions diverge from satellite operational constraints and drive resolution.

Benefits

  • Competitive salaries
  • Continuous learning and development
  • Health and wellness care options
  • Financial solutions for the future
  • Optional legal services (US only)
  • Paid holidays
  • Paid time off
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