The Tarysar Subsurface Detection System.

A three-module stack: distributed sensor cluster, sub-GHz mesh relay network, and edge-compute command interface. No GPS dependency. No cloud uplink required. Operational at 200m depth.

Sensor cluster. Mesh relay. Command interface.

The Tarysar SDS is deployed as a set of self-contained sensor cluster units, each housing passive acoustic transducer arrays, a ground-penetrating radar sub-system, seismic geophones, and a local edge processor.

Nodes form a 915 MHz LoRa mesh automatically on power-up — no pre-configuration, no base-station dependency. The command interface runs on a ruggedized tablet or laptop, receiving encrypted alert packets from the nearest mesh gateway node.

All classification logic executes at the edge. Operator terminals receive pre-classified event objects — not raw waveforms. Bandwidth requirement: <1 kbps per active sensor node.

SYSTEM ARCHITECTURE / TARYSAR-SDS v1.2 SENSOR CLUSTER · Passive Acoustic · GPR Module · Seismic Array · Edge Processor 72h battery / node MESH RELAY · 915 MHz LoRa · Auto-topology · AES-256 encrypt · <1 kbps per node no GPS dependency C2 INTERFACE · Tablet / laptop · Event dashboard · Operator override · Alert protocol offline-capable DEPLOY SEQUENCE 01 EMPLACE <45 min corridor 02 MESH FORM auto / <90 sec 03 SCAN LOOP continuous / 72h 04 ALERT <8 sec latency TARYSAR SDS / ARCHITECTURE OVERVIEW / NOT TO SCALE

Sensor node specifications.

Technical parameters from controlled field test conditions. Performance varies with substrate type, geometry, and operating temperature.

Parameter Value Notes
Acoustic detection range 200m per node (max) Tested in concrete tunnel / limestone substrate — internal field data
GPR depth (active) 3–15m Frequency tunable 300 MHz – 2 GHz; higher freq = shallower / higher resolution
Seismic sensitivity 0.0005g minimum Detects footfall cadence at 150m in controlled substrate conditions
Comm protocol 915 MHz LoRa mesh ISM band / sub-GHz; no GPS sync required; AES-256 encrypted link
Edge processor ARM Cortex-M class On-device signal classification; outputs event objects, not raw waveform
Battery endurance 72h standard pack Passive acoustic continuous; GPR active sweep every 30 min by default
Operating temperature -20°C to +55°C Extended range variant in development
Form factor Cylinder 120mm dia / 280mm length Magnetic wall-mount or ground-stake deployment variants
Alert latency <8 seconds Event onset to operator notification over mesh — tested at 4-node mesh

All figures from Tarysar internal field tests. Not independently verified. Actual performance varies with substrate, geometry, and operating conditions.

Autonomous effector: navigate, assess, act.

The effector module is a GPS-independent autonomous platform designed for tunnel and confined-space traversal. Navigation relies on dead-reckoning inertial odometry combined with real-time SLAM against a preloaded tunnel geometry map loaded at deployment. No satellite sync required. No external position reference.

When the sensor mesh classifies a confirmed threat event, the effector can be dispatched to the anomaly coordinates within the engagement envelope defined by the operator prior to deployment. Human-in-the-loop override is mandatory for dispatch — the effector does not act autonomously without explicit operator confirmation.

Navigation mode Dead-reckoning + SLAM
GPS dependency None required
Comm link 915 MHz mesh relay
Dispatch trigger Sensor event + operator confirm
Human override Available at all stages
EFFECTOR TRAVERSE / DEAD-RECKONING PATH TUNNEL CEILING TUNNEL FLOOR N-01 N-02 N-03 E ANOMALY Effector traverse path Sensor node Anomaly
TARYSAR-C2 / SESSION ACTIVE
MESH STATUS: 4/4 nodes ONLINE N-01 battery: 68% signal: -72dBm last_ping: 0.8s N-02 battery: 71% signal: -68dBm last_ping: 0.9s N-03 battery: 74% signal: -74dBm last_ping: 1.1s N-04 battery: 69% signal: -70dBm last_ping: 0.7s ───────────────────────────────────────── ⚡ EVENT [2026-03-14 04:17:22 UTC] TYPE: acoustic-footfall / confirmed NODES: N-02, N-03 (correlation: 94%) EST-POS: corridor-A / 47m from N-02 VELOCITY: 1.1 m/s DIRECTION: west ───────────────────────────────────────── EFFECTOR: standing by / awaiting CONFIRM [ DISPATCH ] [ RECALL ] [ OVERRIDE ]

Command interface designed for field conditions.

The command and control interface presents classified event data — not raw sensor waveforms. Operators see: event type, estimated position, confidence score, threat velocity and direction, and a decision prompt.

The interface is designed for ruggedized tablet or military laptop. Offline-capable: no internet connectivity required. Encrypted session over the local mesh gateway. Full event log with export capability for after-action review.

  • Human-in-loop at every stage

    Effector dispatch requires operator confirmation. Override available at any point in mission execution.

  • No cloud dependency

    All processing is edge-local. The C2 terminal communicates with the mesh gateway over a local encrypted channel — no external uplink required.

  • Event log with export

    Full timestamped event log. Exportable for after-action review, incident reporting, and pattern analysis over time.

Request the full system specification brief.

Detailed electrical and mechanical specifications, integration requirements, and deployment protocols are available to qualified defense and infrastructure programs on request.