XRComm® Releases TruSystems®: First Unified Hardware Platform Spanning NTN Prototyping and Live Orbital Test
One architecture, two software personalities — closing the design-to-deployment loop for LEO Satellite constellations, direct-to-cell, non-terrestrial networks and 6G research.
AUSTIN, Texas — May 20th, 2026 — XRComm, an Austin-based pioneer in AI-native prototyping and test platforms for Satellite communication and non-terrestrial networks (NTN), today announced the commercial release of TruSystems®, a unified hardware platform that runs both prototyping and live field test through software-defined personalities. TruSystems eliminates the structural gap that has long separated wireless lab development from in-orbit performance validation — a gap that, for LEO constellation operators, can mean weeks lost between anomaly detection in space and corrective design action on the ground.
The release marks the first time a single SDR-and-compute architecture has been engineered to serve both roles natively, with the same data formats, the same toolchain, and a closed feedback loop architected directly into the platform.
LEO satellites and direct-to-cell terminals encounter conditions in orbit that no controlled lab environment can fully replicate: launch-induced mechanical stress that alters RF characteristics, thermal cycling that affects carrier stability and timing alignment, Doppler dynamics across orbital passes, inter-beam interference in multi-beam architectures, and atmospheric propagation effects that emerge only under live operational load. The standard industry response — maintaining separate hardware stacks for development and field test — compounds the issue. Different toolchains, different data formats, and slow knowledge transfer between teams mean field insights rarely reach the design environment in time to influence the next launch window.
TruSystems resolves this with a single physical platform that runs two software personalities:
- TRS100P is the prototyping and development layer. It supports wireless system development across 5G, 6G, and NTN architectures, with native integration for open-source stacks including OAI and OCUDU. It provides real-time labeled data logging, AI/ML workflow support, and a realistic environment for satellite payload development, UE and customer terminal design, and digital twin modeling grounded in live operational data.
- SAT100T is the field deployment layer — a real-time satellite signal monitoring and diagnostics platform built for continuous operation in live environments. It tracks Doppler offset and rate-of-change, EVM, RSSI, RSRP/RSRQ, inter-beam interference, and sub-frame timing stability. Anomaly detection runs at the hardware layer via the AppIQ-RFanomaly engine on the FlexCompute modules, with configurable custom triggers, pre/post-capture buffers, and detection latency measured in nanoseconds.
Both personalities share the same underlying hardware: ultra-low-latency data transport, real-time deterministic distributed DSP, native AI/ML inference at the edge, wideband multi-channel SDR with adaptive calibration (CalIQ), and a software-defined architecture that scales without hardware replacement.
The strategic value emerges when both personalities operate as parts of the same continuous workflow. Field signal data captured by SAT100T — anomalies, Doppler profiles, timing drift, interference events — flows back to ground systems and directly informs the design environment where TRS100P operates. Pre-Doppler models get refined. Waveform parameters get tuned against real orbital behavior. Each launch cycle is informed by the operational reality of the previous one. The feedback loop is closed not by process or convention, but by architecture.
“Every LEO satellite launched today carries the implicit expectation that the next one will perform better,” said Ahsan Aziz, Founder of XRComm. “TruSystems is built for the teams that have to deliver on that expectation. By giving prototyping and field-validation engineers the same hardware, the same data formats, and the same toolchain, we shorten the distance between an anomaly observed in orbit and a corrected design ready for the next launch window.”
“The boundary between design and deployment shouldn’t exist — and architecturally, with TruSystems, it doesn’t,” added Kodanda R. Engala, Founder of XRComm. “AI/ML models trained on labeled IQ data in the lab deploy directly to the edge compute layer in the field. No pipeline rebuild, no format translation. That is the difference between iterating in months and iterating in hours.”
TruSystems has already been deployed in a Tier 1 satellite company, reducing their RF anomaly detection time from months to hours thanks to the platform’s real-time diagnostics capabilities.
Additionally, in November 2025, XRComm and SpinLaunch announced a collaboration applying TruSystems to satellite validation, network diagnostics, and real-time analytics for SpinLaunch’s Meridian constellation — an early proof point for the platform’s role in compressing development and test cycles for emerging LEO programs. Additional deployments span direct-to-cell terminal development, multi-orbit QoS management, and 5G/6G NTN payload verification.
The Foundation Suite underpinning TruSystems delivers up to 8TX/8RX channels, 400 MHz native instantaneous bandwidth (upgradeable to >1 GHz), and frequency coverage from 400 MHz to 7.125 GHz. It is engineered for mMIMO, 6G research, direct-to-cell, NTN, spectrum monitoring, EW, and SIGINT applications, with FlexCompute providing FPGA and CPU/GPU servers with ultra-low-latency interconnects for AI-at-the-Edge, 5G DU, Open RAN vBBU, and satellite workloads.
TruSystems is available now. Configuration details, deployment support, and evaluation access for qualifying NTN, direct-to-cell, and 6G research programs are available by contacting info@xrcomm.com.
XRComm is a pioneer in AI-native wireless prototyping and test and measurement platforms, empowering network providers, OEMs, and technology partners to accelerate innovation across 6G research, Non-Terrestrial Networks (NTN), and Open RAN. Through its AI-native platforms, XRComm bridges the gap from the lab to live deployments — delivering adaptive calibration, data-labeling automation, and field-deployable instrumentation and prototyping platform that shorten test iteration cycles from months to hours. Founded in 2023 by former members of Meta Connectivity together with seasoned leaders from top wireless and test & measurement organizations, XRComm is headquartered in Austin, Texas. Learn more at xrcomm.com.
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XRComm®, MetaIQ™, AppIQ™, CalIQ™, and TruSystems® are trademarks or registered trademarks of XRComm Inc. All other product names, logos, and brands mentioned in this document are the property of their respective owners. Use of these names, logos, and brands does not imply endorsement.
What is TruSystems® and how does it differ from traditional satellite test platforms?
TruSystems® is a unified SDR-and-compute platform that supports both NTN prototyping and live orbital testing using the same hardware architecture. Unlike traditional workflows that require separate systems for development and field validation, TruSystems uses two software-defined personalities—TRS100P for prototyping and SAT100T for live diagnostics—allowing teams to use the same toolchain, data formats, and infrastructure throughout the development lifecycle.
How does TruSystems® help reduce the gap between laboratory testing and real-world satellite performance?
TruSystems closes the feedback loop between design and deployment by feeding live orbital data directly into the development environment. Data collected by SAT100T, including Doppler profiles, timing drift, RF anomalies, and interference events, can be analyzed and used within TRS100P to refine waveforms, improve pre-Doppler compensation models, and optimize future satellite designs based on actual operational conditions.
What metrics can SAT100T monitor in live NTN and LEO satellite environments?
SAT100T provides real-time monitoring and diagnostics for key RF and network performance indicators. These include Doppler offset and rate-of-change, Error Vector Magnitude (EVM), RSSI, RSRP, RSRQ, inter-beam interference, and sub-frame timing stability. The platform also supports nanosecond-level anomaly detection through XRComm’s AppIQ-RFanomaly engine running on FlexCompute hardware.
Which wireless and satellite technologies are supported by TruSystems?
TruSystems is designed for a wide range of wireless and non-terrestrial networking applications. The platform supports 5G, 6G, NTN, direct-to-cell communications, Open RAN deployments, mMIMO research, satellite payload development, spectrum monitoring, and advanced AI/ML-driven wireless experimentation. TRS100P also integrates with open-source frameworks such as OAI and OCUDU for accelerated development.
What hardware capabilities does the TruSystems Foundation Suite provide?
The TruSystems Foundation Suite delivers high-performance SDR and edge-compute resources for advanced wireless testing and deployment. It supports up to 8TX/8RX channels, 400 MHz native instantaneous bandwidth (expandable beyond 1 GHz), and frequency coverage from 400 MHz to 7.125 GHz. The platform includes FPGA-based and CPU/GPU-based FlexCompute modules with ultra-low-latency interconnects for AI-at-the-edge, Open RAN vBBU, 5G Distributed Units, and satellite communication workloads.