NATO-GRADE Tactical AI for Coalition Operations

BlackSphere

Tactical Voice Translation System

Real-time, fully air-gapped speech-to-speech translation for multinational tactical operations. Runs on-device with zero cloud dependency. Built for NATO interoperability on rugged edge compute.

<3s
End-to-end latency
Speech in, translated speech out
20+
NATO languages
PL / UK / EN core + expansion
0
Cloud dependencies
Fully air-gapped operation
5 yr
Support & maintenance
Updates, SLA, spare parts

The Capability

What BlackSphere delivers to the warfighter

Real-Time Voice Translation

Operator speaks native language into tactical radio. Within seconds, the receiving operator hears a clear, natural-sounding translation in their own language. Bidirectional, full-duplex capable.

Speech-to-Speech, sub-3s latency

True Air-Gap

All AI inference runs locally on ruggedized edge hardware. No internet, no cloud, no call-home telemetry. Voice data never leaves the tactical network. Designed for TEMPEST-rated enclosures.

Zero external dependencies

NATO Radio Integration

Plugs into existing tactical radio infrastructure via RoIP gateway. G.711 / MELPe codec bridge. Works with WaveRelay mesh, VHF/UHF, HF, and SATCOM radio networks.

Drop-in to existing comms stack

NATO Terminology Preservation

Callsigns, brevity codes, grid references, and NATO phonetic alphabet pass through untranslated. "Bravo 2, this is Alpha 6, over" stays intact across all language pairs.

Military radio brevity maintained

Observer Dashboard

Real-time web UI for the operator: live transcription, language state, translation events, latency metrics, transcript export. Accessible from any device on the tactical LAN.

Full operational visibility

Multi-Language Auto-Detect

Automatic source language identification with operator override. Supports one-shot auto-detect mode and manual language seeding. Graceful fallback on low-confidence utterances.

Adaptive to coalition changes

How It Works

End-to-end voice translation in under 3 seconds

1. CAPTURE

Operator keys radio, speaks in native language

2. INGEST

RoIP gateway bridges radio audio to G.711 RTP multicast

3. TRANSLATE

On-device AI: speech recognition, translation, voice synthesis

4. TRANSMIT

Translated audio paced at native codec rate back through gateway

5. DELIVER

Receiving operator hears translated voice on their radio

System Architecture

Bidirectional voice translation bridging two radio networks through a single edge compute node

Tactical Radio RoIP Gateway AI Compute Observer FIELD OPERATOR (speaks Polish) A Tactical Radio A MPU5 / WaveRelay Mesh Field operator, dismounted MESH B Tactical Radio B MPU5 / WaveRelay Mesh Base station, Ethernet out ETH GW RoIP Gateway EMm / GV1-2040 Radio-to-multicast bridge G.711 uLaw RTP, 60ms Talk Group routing Echo suppression BASE OPERATOR (speaks English) H H-250 Handset NATO standard PTT voice I/O RTP MULTICAST BlackSphere AI Engine Voyager VM 4.0 + NVIDIA A4500 GPU Module Speech Recognition Parakeet TDT 0.6B ~1s on GPU Translation SalamandraTA-2B <1s on GPU Voice Synthesis Piper TTS (per-lang) ~0.5s TRANSLATED RTP Observer UI FastAPI + SSE Web dashboard Tactical LAN — Air-Gapped Ethernet Segment All devices on isolated switch. No upstream routing. Multicast RTP transport between gateway and compute. Full-duplex: Field Operator (Channel A) and Base Operator (Channel B) translate independently and concurrently

Performance by Platform

Same software stack scales across hardware tiers — customer picks the SKU that matches the mission

RECOMMENDED

Squad / Vehicle

Production Target
PlatformVoyager VM 4.0 + GPU
CPUXeon D Ice Lake, 10c/20t
GPUNVIDIA A4500 (16GB)
Power~110W
Latency<3s end-to-end

Sweet spot: modular GPU snaps off for missions where not needed. NATO-grade translation quality with large models. 128GB RAM future-proofs for model upgrades.

Command Post

Vehicle-Fixed / TOC
PlatformVoyagerHPC + GPU
CPUEPYC 7713P, 64c/128t
GPUNVIDIA via PCIe Gen 4
PowerVehicle DC + UPS
LatencySub-second, multi-stream

Multi-stream parallel translation for command posts. Can run 70B+ models. EPYC 64-core enables CPU-only fallback without GPU.

Standards Alignment

Designed for NATO operational environments and interoperability requirements

STANAG 4591

Voice Codec Interoperability

NATO MELPe narrowband voice coder compatibility. Native G.711 uLaw transport with codec bridge to MELPe at 600/1200/2400 bps for interoperability with legacy NATO radio equipment and SATCOM links.

STANAG 4774

Confidentiality Metadata

Confidentiality metadata label syntax for translated content. All transcripts and translation logs carry NATO classification markings (NU through CTS). Enables proper handling of translated classified communications.

STANAG 5525

C2 Data Model Integration

Joint C3 Information Exchange Data Model alignment for feeding translated communications into NATO C2 systems. Structured event output compatible with JC3IEDM message exchange patterns.

SDIP-27 / TEMPEST

Emanation Security

Hardware platform (Klas Voyager family) designed for TEMPEST-rated enclosure installation. No wireless emissions from compute module. All I/O via shielded Ethernet and audio cables.

AEP-76

Information Assurance

NATO information assurance assessment framework alignment. Encrypted data at rest, secure boot chain, no external DNS resolution, no telemetry endpoints. Audit trail for all translation events.

License Compliance

Defense-Procurement Clean

All AI models licensed under Apache 2.0, MIT, or CC-BY-4.0. No non-commercial restrictions. No revocable license clauses. No foreign-government controlled model dependencies. Full IP freedom for defense procurement.

Technology Stack

Purpose-built AI pipeline with defense-grade open-source models. All components Apache 2.0 / MIT / CC-BY-4.0 licensed.

Speech Recognition (STT)

CC-BY-4.0
NVIDIA Parakeet TDT 0.6B v3 ONNX Runtime (CPU + CUDA) 25 languages Transducer decoder (RNN-T/TDT) KenLM tactical hotword biasing

Transducer architecture eliminates hallucination-class errors common in autoregressive models. Numerals, callsigns, and grid references transcribe accurately without creative inference. ~1s on GPU, ~0.5s on A4500.

Machine Translation (MT)

APACHE 2.0
SalamandraTA-2B Instruct (GGUF) llama.cpp (Vulkan + CUDA) 35 European languages Translation-specialized (not generic LLM) NATO terminology glossary

Purpose-built translation model trained on 70B parallel-data tokens covering all European languages. Does not hallucinate fictional radio scenarios. Callsign-preservation prompt + post-processing glossary for NATO brevity codes across all supported language pairs.

Voice Synthesis (TTS)

MIT
Piper TTS (per-language voice models) ONNX Runtime Male voices (tactical) Adjustable speech rate per language 8kHz G.711 output (codec-native)

Natural-sounding male voices optimized for radio clarity at G.711 8kHz bandwidth. Lead-in and tail silence prevent first/last syllable clipping on mesh radio keying. Per-language speech rate tuning for intelligibility over degraded channels.

Runtime & Transport

Python 3.12 + asyncio GStreamer 1.24 (RTP pipeline) FastAPI + SSE (observer) systemd (service management) G.711 uLaw RTP multicast Ubuntu 24.04 LTS (baremetal)

Bare-metal deployment, no containers or orchestration overhead. Both AI services auto-start at boot. State persists across power cycles. Boot-to-ready under 15 seconds.

Security Architecture

Designed from the ground up for classified operational environments

Air-Gap Enforcement

  • No DNS resolver configured in production
  • All models loaded with local_files_only=True
  • iptables firewall blocks all egress traffic
  • Zero telemetry, zero phone-home, zero update checks
  • Voice data never leaves the tactical network segment

Data Protection

  • Encrypted storage at rest (LUKS2)
  • Secure boot chain verification
  • Tamper-evident audit log for all translation events
  • No persistent voice recording (process-and-discard)
  • Credential isolation (gitignored, chmod 600)

Five-Year Support Program

Comprehensive maintenance, updates, and operational support for the lifecycle of the deployment

Software Updates

Air-gapped delivery via secure removable media. Security patches, bug fixes, and performance improvements. Tested and validated before deployment.

Model Upgrades

Periodic AI model improvements as better open-source models become available. New language packs. Tactical corpus fine-tunes from field usage data.

Hardware Maintenance

Spare parts inventory via Klas partnership. Field-replaceable modules. Hardware diagnostics and preventive maintenance schedules.

Operational SLA

Tiered response times based on severity. Remote diagnostic support (when network permits). On-site support for critical deployments. Operator training program.

Why BlackSphere

What sets us apart from existing tactical translation solutions

True Air-Gap, Not "Can Go Offline"

Competitors offer "edge deployment" that still phones home for updates, telemetry, or license validation. BlackSphere is architected air-gap-first. No internet path exists in the production image. Zero capability degradation when disconnected — because it was never connected.

Native Radio Stack Integration

Drops into the tactical radio infrastructure already fielded. WaveRelay mesh, RoIP gateway, H-250 handsets — BlackSphere bridges them transparently. No new radios, no new protocols, no new training burden for operators.

No Foreign Cloud Dependency

All AI models are open-source with clean Apache 2.0 / MIT licenses. No Google, Microsoft, or Meta cloud requirements. No revocable license clauses. Full IP ownership and sovereignty for the customer nation.

Competitive Positioning

Capability BlackSphere Cloud-Based Solutions Legacy On-Prem
True air-gap operation Partial
Sub-3s latency
No license revocation risk Varies
NATO radio integration Limited
Low-SWaP tactical hardware Rack-mount
5-year sovereign support Vendor-locked Varies