Real-Time
Location Tracking
Pinpoint individuals and high-value assets with sub-meter precision. We use forensic signal intelligence to bypass VPNs, proxies, and mobile obfuscation to find anyone, anywhere.
The Failure of
Linear Discovery
Conventional geolocation relies on static IP data and public registries—signals that are easily spoofed by VPNs, mobile NATs, and orbital lag. For institutional investigations, city-level estimates are a liability.
Institutional
Signal Persistence
We don't query databases; we map the relational fabric of signal telemetry. By fusing orbital pings, carrier hand-offs, and forensic metadata, we reconstruct a target's Pattern of Life with sub-meter precision.
Orbital Intelligence Grid
A multi-layered SIGINT stack that fuses physical and digital telemetry to resolve target location with absolute forensic reliability.
Multi-Constellation GPS
Deep EXIF and GPX forensic extraction. Resolves subject movement history from fragments of unstructured media data with sub-3m accuracy.
Triangulation Matrix
Real-time fusion of signal strength (RSSI), cell tower IDs, and Wi-Fi BSSID proximity to map devices even in GPS-denied environments.
Sig_Leak Analysis
Advanced deep-packet inspection (DPI) to bypass VPN/proxy obfuscation by resolving hardware-level leak signatures and carrier NAT patterns.
Relational Cross-Mapping
Autonomously correlates social telemetry check-ins (Foursquare, Strava, OpenWeb) with physical addresses to build accurate Pattern of Life maps.
Carrier Signaling Network
Global HLR/VLR signaling access across 195 countries. Direct-to-source resolution of registered billing addresses and active device status.
Forensic Chain of Custody
Immutable hashing and WORM data custody ensures that all derived location intelligence is admissible in high-stakes legal proceedings.
The Science of
Forensic SIGINT
We don't just "find" locations. We compute them using principles of signal physics, probabilistic mathematics, and large-scale adjacency graph theory.
Physics: Signal Multilateration
When GPS is unavailable, our engine activates TDOA (Time Difference of Arrival) protocols. By measuring the nanosecond-latency in signal arrival times across multiple cell towers, we resolve hyperbolic curves of convergence.
// Hyperbolic_Positioning_Matrix
R_diff = c * (t_2 - t_1)
√((x-x1)² + (y-y1)²) - √((x-x2)² + (y-y2)²) = R_diff
Math: Predictive Modeling
We deploy Latent Markov Chains and Bayesian Search Theory to assign probability weights to future target coordinates. By decomposing historical state transitions, the engine resolving intent before movement occurs.
- Bayesian Search Theory applied to tactical tracking
- Kalman Smoothing to eliminate erratic telemetry jitter
CompSci: SIGINT BIDSTREAM
Our architecture ingests petabytes of raw Ad-Exchange Telemetry (RTB) in real-time. Every programmatic request broadcasts ephemeral location fragments. TraxinteL captures, indexes, and resolves this "digital exhaust" into permanent forensic signatures.
Signal Intelligence Journey
Transforming fragmented signal telemetry into precise, actionable forensic location intelligence through a rigorous four-stage resolution process.
Matrix Ingestion
The engine consumes petabytes of raw signal telemetry from global Ad-Tech exchanges (ADINT), carrier signaling spikes, and adversarial metadata packets.
Probabilistic Rerouting
Anonymous Mobile Identifiers (MAIDs) are unmasked and cross-referenced against 847M+ indexed identity nodes to resolve persistent target profiles.
Geospatial Convergence
TDOA signal physics and pattern-of-life algorithms decompose movement fragments into high-fidelity coordinate clusters with sub-meter accuracy.
Forensic Deliverable
The resolved trajectory is hashed for chain-of-custody and delivered as an actionable forensic report, admissible for institutional and legal use.
Operational
Applications
Institutional
Coverage Resolution
"The industry gold standard for persistent target tracking across jurisdictional boundaries."
ORBITAL PHASE ACCESS
Select the operational tier required for your mission-critical target resolution.
Passive_Intel
"For single-subject background verification."
- 1 Active Target Node
- Daily Signal Polling
- 30-Day Historical Retention
- Metro-Level Resolution
- Standard Alert Ingestion
Tactical_Tracker
"For active field surveillance operations."
- 10 Active Target Nodes
- Hourly Signal Convergence
- 1-Year Forensic Retention
- Sub-10m Radial Precision
- Pattern of Life Modeling
- 24/7 Priority Ingestion
Overhang_Array
"For multi-theater global monitoring."
- 50+ Active Target Nodes
- Zero-Latency Stream Fusion
- Unlimited WORM Retention
- Sub-Meter Resolution Matrix
- Dedicated SIGINT Analyst
- Full API/SDK Deployment
Institutional entities required to use WORM data custody or SOC 2 compliance should request agency-grade access.
Common Queries
Pinpoint the
Exact Origin
Stop chasing ghosts. Deploy institutional-grade signal intelligence to resolve target locations with absolute forensic certainty.