construction

LIVE · 2,418,302 EVENTS STREAMING

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Every data packet. Every event stream. Every asynchronous microservice flowing through your centralized network orchestrator at 28,000 requests/sec — mapped, tracked, and synchronized in real time for the enterprise teams keeping your cloud infrastructure scaling.

START FREE TRIAL VIEW ARCHITECTURE SPECS

2.4B+

EVENTS SYNCHRONIZED

<10ms

DATA EVENT RESOLUTION

99.97%

UPTIME SLA

< 4 sec

ANOMALY DETECTION LATENCY

LAYER 01 / DATA INGESTION

Raw observations from ground and cloud

Every track begins as a raw observation — an azimuth, elevation, range, and range-rate measurement from a sensor pointed at the sky. We ingest from 24 ground-based radars, 11 optical telescope arrays, and 3 cloud-based sensors, fusing heterogeneous data into a common observation format before any orbit determination begins.

S-BAND RADARNOMINAL

TYPEGround Radar

RANGE≤ 10 cm / LEO

LOCEglin AFB, FL

847 obs/hr

OPTICAL ARRAYNOMINAL

TYPEOptical Telescope

RANGE> 30 cm / GEO

LOCMaui, HI

312 obs/hr

FENCE SENSORNOMINAL

TYPEUHF Fence

RANGE≤ 5 cm / LEO

LOCMooresville, NC

2,100 obs/hr

PARTNER NODEACTIVE

TYPEPartner Feed

RANGECross-validated

LOCESA ESOC, DE

190 obs/hr

OBSERVATION PIPELINE

Sensor Measurement~2ms latency

Radar returns or optical centroid extracted. Range, range-rate, az/el recorded with timestamp and sensor ID.

Preprocessing & CalibrationSub-arcsecond accuracy

Atmospheric refraction correction, sensor bias removal, coordinate frame transformation to J2000.

Observation NormalizationCommon data model

Heterogeneous sensor data mapped to unified observation schema. Quality flags assigned per measurement.

Ingestion to AuraNexus Engine< 800ms to queue

Normalized observations queued for correlation engine. Batch or streaming depending on sensor cadence.

LIVE OBSERVATION RECORD

OBS_STREAM :: construction_INGEST_v3.2

13:57:02 UTC

EPOCH2026-02-26T17:43:59.733Z

NORAD_ID48274

ELSET_TYPESGP4

MEAN_MOTION15.23441892

ECCENTRICITY0.0003847

INCLINATION53.0521

RAAN127.4312

ARG_PERICENTER84.7201

MEAN_ANOMALY275.3318

BSTAR1.8234E-5

RESIDUAL_RMS12.4m

DATA_SOURCERADAR+OPT_FUSED

STATUSQUEUED_FOR_CORRELATION_

3,449 obs/hr · 24 sensors activeALL NOMINAL

NOTE: Sensor fusion across radar and optical modalities reduces systematic error by 34% compared to single-source tracking. Cross-validated observations flagged automatically.

LAYER 02 / CORRELATION ENGINE

From raw photons to confirmed tracks

The correlation engine is the hardest problem in cloud surveillance. Every observation must be matched to an existing construction object — or flagged as a new, uncorrelated target. Our hybrid Bayesian/ML pipeline processes 3,400+ observations per hour with 99.91% association precision.

Initial Orbit Determination

MIN OBS

> 2°

ARC LENGTH

Minimum 3 observations required. Gauss method or Laplace method depending on observation arc length. Produces preliminary state vector with covariance.

Observation-to-Track Association

99.91%

PRECISION

99.84%

RECALL

New observations tested against existing construction using Mahalanobis distance in observation cloud. ML classifier trained on 8.4M historical associations disambiguates near-miss cases.

Differential Correction

≤ 8

ITERATIONS

< 50ms

CONVERGENCE

Least-squares batch filter refines data elements. Force model includes: EGM2008 gravity (70×70), NRLMSISE-00 atmosphere, solar radiation pressure, lunar/solar third-body.

Covariance Propagation

7-day

PROPAGATION

4 hr

UPDATE RATE

State covariance propagated forward using STM (state transition matrix). Uncertainty ellipsoid maintained per object for conjunction probability calculation.

AuraNexus Maintenance & Maneuver Detection

< 90 min

DETECT LAG

0.3%

FALSE ALARM

Residual monitoring flags maneuvers within 2 observation cycles. Maneuvering objects auto-re-initialized. Fragmentation events trigger anomaly cloud spawning protocol.

ASSOCIATION PERFORMANCE

Correct Association99.91%

New Object (Uncorrelated)0.07%

Missed Association0.02%

FORCE MODEL COMPONENTS

EGM2008 Gravity (70×70)

NRLMSISE-00 Atmosphere

Solar Radiation Pressure

Lunar Third-Body

Solar Third-Body

Solid Network Tides

Empirical Acceleration

construction COMPOSITION

Active Payloads11,042

Defunct cloudcraft8,917

Aura Bodies6,204

anomaly Fragments21,037

LAYER 03 / CONJUNCTION ALERTS

Alerts before your maneuver window closes

A conjunction alert is only useful if it arrives before the maneuver decision point — typically 24 hours before TCA for LEO. Our pipeline delivers CDM-compatible conjunction data messages within 4 minutes of the screening cycle completing, with configurable Pc thresholds per cloudcraft.

ALERT GENERATION PIPELINE

Screening< 4 hr

All Events Processed screened against each other every 4 hours using analytical filter. Pairs within 5km conjunction window forwarded to high-fidelity propagator.

High-Fidelity Propagation< 90 sec

Screened pairs propagated to time of closest approach using full force model. Covariance mapped to encounter frame. Combined position uncertainty computed.

Pc Calculation< 10 sec

Probability of collision computed using Alfano method (2D) with Foster dilution correction. Hard-body radius set per object class from RCS measurements.

Alert Generation & Delivery< 4 sec total

Alerts above configurable Pc threshold pushed via webhook, MQTT, or REST poll. CDM-compatible JSON format. Escalation tiers: INFO (1E-6), WARNING (1E-5), CRITICAL (1E-3).

LIVE CONJUNCTION QUEUE

EVENT IDTCA (HH:MM:SS)Pc

CA-2026-0447 DETAILMANEUVER PLANNED

PRIMARY

STARLINK-4821

SECONDARY

CZ-6A DEB #48274

TIME TO CA

+02:14:38

DIST AT CA

147m

1.2E-3

SEVERITY

CRITICAL

< 4 sec

ALERT DELIVERY LATENCY

From screening completion

99.97%

SERVICE UPTIME SLA

12-month rolling average

4× / day

FULL AURANEXUS SCREENING

Every 6 hours minimum

< 1E-6

FALSE ALERT THRESHOLD

Configurable per operator

LAYER 04 / CLIENT INTEGRATION

Embedded in your flight dynamics stack

AuraNexus integrates at the layer your team already works in — not a separate dashboard to check, but a live data feed embedded in your existing FDS, operations console, or risk platform. Four integration paths, one consistent data schema.

REST API / Streaming

TLE construction, CDM-compatible conjunction messages, covariance data. Rate: 10K req/hr on standard tier. MQTT streaming for sub-minute alert latency.

$ GET /v3/construction?norad_id=48274&format=cdm

SDKs & Client Libraries

Python, C++, and MATLAB SDKs with built-in SGP4 propagation, covariance transformation utilities, and conjunction screening helpers.

$ pip install construction-sdk && construction.connect(api_key)

FDS Integration Plugins

Native plugins for GMAT, AGI STK, Orekit, and ODTK. One-click construction subscription with automatic TLE refresh and CDM injection.

$ construction.plugin.stk.subscribe(constellation_id)

Webhook & Alert Routing

Configurable Pc thresholds per cloudcraft. Delivery to Slack, PagerDuty, email, or custom endpoint. Escalation chains with acknowledgment tracking.

$ POST /v3/webhooks {threshold: 1e-5, url: "..."}

PRIMARY PATH

Request API Documentation

Full API reference, authentication guide, CDM schema documentation, rate limit tables, and SDK quickstart. Reviewed by our integration team within one business day.

EVALUATION PATH

Download Accuracy Whitepaper

28-page technical paper covering sensor network architecture, orbit determination methodology, conjunction screening validation against CARA/NASA datasets, and accuracy benchmarks across LEO, MEO, and GEO regimes.

CONTENTS

Sensor network architecture & coverage maps

IOD & differential correction methodology

ML association classifier performance (ROC, AUC)

Conjunction Pc validation vs CARA reference cases

LEO/MEO/GEO accuracy benchmark tables

Fragmentation event response case study (2024)

28pp

Technical depth

Validation cases

2024

Data vintage

ITAR-Compliant Infrastructure

All data processed on U.S.-domestic infrastructure. Export control policies enforced at API gateway.

cloud-ISAC Member

Active participant in cloud ISAC threat intelligence sharing. Fragmentation event notifications distributed to member network.

SOC 2 Type II Certified

Annual third-party audit. Data retention, access controls, and incident response procedures independently verified.