vss-setup-behavior-analytics

por nvidia

Use to deploy the vss-behavior-analytics service standalone (entrypoint, config-source, optional calibration). Not for the full warehouse deploy.

npx skills add https://github.com/nvidia/skills --skill vss-setup-behavior-analytics

Purpose

Deploy the behavior-analytics service standalone with the user's chosen entrypoint, config, and calibration.

Instructions

Follow the routing tables and step-by-step workflows below. Each section that ends in workflow, quick start, or flow is intended to be executed top-to-bottom. Detailed reference material lives in references/.

Examples

Worked end-to-end examples are kept under evals/ (each *.json manifest contains a runnable scenario). Run a Tier-3 evaluation to replay them:

nv-base validate skills/vss-setup-behavior-analytics --agent-eval

A minimal standalone bring-up looks like:

cd $REPO/deploy/docker
export VSS_APPS_DIR=$(pwd)
docker compose -f services/analytics/behavior-analytics/compose.yml up -d vss-behavior-analytics-base

Follow references/deploy-behavior-analytics-service.md for the full workflow (entrypoint pick, config source, dynamic updates).

Limitations

  • Requires the matching VSS profile / microservice to be deployed and reachable from the caller.
  • NGC-hosted models and NIMs may be subject to rate-limits, GPU memory requirements, and license restrictions.
  • Concurrency, GPU memory, and storage limits depend on the host hardware and the profile's compose file.

Troubleshooting

  • Error: REST call returns connection refused. Cause: target microservice not running. Solution: probe /docs or /health; redeploy via vss-deploy-profile or the matching vss-deploy-* skill.
  • Error: HTTP 401/403 from NGC pulls. Cause: missing/expired NGC_CLI_API_KEY. Solution: docker login nvcr.io and re-export the key before retrying.
  • Error: container OOM or model fails to load. Cause: insufficient GPU memory for the selected profile. Solution: switch to a smaller variant or free GPUs via docker compose down.

VSS Setup Behavior Analytics — Standalone

Deploy just the vss-behavior-analytics container (the spatial-AI analytics pipeline from the upstream behavior-analytics repo), not as part of the full warehouse blueprint stack.

The full operational walkthrough — entrypoint table, config-source options, calibration types, dynamic-update wire contract, troubleshooting — is references/deploy-behavior-analytics-service.md. This SKILL.md only handles routing and prerequisites.

When to use

  • "Deploy behavior analytics" / "run behavior-analytics standalone"
  • "I just want to run analytics, not the full stack"
  • "Change the entrypoint to fusion_search / dev_example / analytics 3D / mv3dt"
  • "Use my own behavior-analytics config / calibration JSON"
  • "Point behavior-analytics at the warehouse-3d (or mv3dt) config without spinning up the rest of the warehouse profile"
  • "Dynamic config / dynamic calibration into a running behavior-analytics"

Prerequisites

  1. Repo checkout with $VSS_APPS_DIR pointing at <repo>/deploy/docker/. Required by the service compose's volume binds.
  2. NGC credentials$NGC_CLI_API_KEY set so docker can pull the image. See references/ngc-api-key-registry-login.md.
  3. Docker runtime — Docker Engine 28.3.3 with Docker Compose plugin v2.39.1+. Verify with docker --version and docker compose version.
  4. Optional broker (Kafka / Redis Streams / MQTT). The container starts fine without one — the Kafka client retries a bounded number of times, then the app exits and restart: always cycles the container. Status will show Restarting (N) in docker ps until a broker is reachable. With a broker, dynamic config / dynamic calibration over mdx-notification become available.
  5. Optional config / calibration files on disk if the user is bringing their own.

If any required prerequisite fails, surface the gap before going further.

Workflow

Hand the user references/deploy-behavior-analytics-service.md and walk them through its steps in order:

  1. Pick an entrypoint (analytics 2D / 3D / mv3dt, dev_example, fusion_search).
  2. Choose a config — profile-shipped or custom.
  3. Choose a calibration — optional; profile-shipped or custom; otherwise the app waits for a dynamic-calibration notification.
  4. Decide whether a broker is reachable; if yes, point them at the dynamic-update flows.

The compose-file edits, YAML diffs, deploy + verify commands, and troubleshooting table all live in that reference — don't duplicate them here.

Dynamic updates (runtime, no restart)

Once the container is up and a broker is reachable, two runtime-update flows are available — neither requires redeploying:

Dynamic config

Publish an upsert (per-key patch) or upsert-all (full snapshot) message to the mdx-notification topic with Kafka key behavior-analytics-config and headers:

  • event.type: upsert | upsert-all | request-config | ack
  • reference-id: video-analytics-api-<uuid> (web-api originated), behavior-analytics-<uuid> (bootstrap reply), or the source-type literal (kafka / redis / mqtt) for direct-publisher upserts.

Body: {"status": ..., "config": <patch>, "error": ...}.

The listener validates each message at the envelope layer (rejects unknown keys, missing config, malformed status/error) and at the per-payload layer (rejects forbidden sections, bad item shapes). Successful upserts are persisted to disk, applied to every worker, and ACK'd back over the topic.

Full wire contract + ack semantics: references/dynamic-config.md.

Dynamic calibration

Publish to the same topic with Kafka key calibration and headers:

  • event.type: upsert-all (full snapshot) | upsert (per-sensor merge) | delete (per-sensor removal)
  • timestamp: ISO-8601 UTC (YYYY-MM-DDTHH:MM:SS.fffZ).

Body: JSON sensor list (and ROIs / tripwires / homographies for upsert-all).

The listener validates against the vendored AJV schema before persisting. Schema violations log a calibration schema violation warning and are dropped — the previously-good calibration stays loaded.

Full wire contract + per-action validation policy: references/dynamic-calibration.md.

Both flows live entirely on the broker — the producer can be video-analytics-api, your own script, or any Kafka client that mirrors the wire shape. They're the recommended way to change configuration after the container is running, so the operator doesn't have to redeploy.

Routing rules

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