[4] OpenCV Library, “VideoCapture and encoding benchmarks,” opencv.org, 2023.
NetSnap, live camera feed, MJPEG stream, real-time snapshot, low-latency streaming, embedded vision, WebSocket. 1. Introduction Live camera feeds are central to modern IoT, security, and telepresence systems. However, many existing solutions suffer from a fundamental trade-off: continuous streaming protocols (e.g., RTSP, WebRTC) optimize for smooth video but introduce latency (often 2–10 seconds) and require complex client-side decoders. Conversely, simple HTTP snapshot polling yields low latency but lacks temporal continuity. live netsnap cam-server feed
async function takeSnapshot() const response = await fetch('/snapshot?sync=true&last_frame=' + lastFrameId); const jpegBlob = await response.blob(); // save or display snapshot Introduction Live camera feeds are central to modern
The paradigm bridges this gap: a persistent server that provides a live MJPEG stream for visual awareness while offering instant, high-quality snapshot capture triggered by client or event-based requests. This paper focuses on the “live cam-server feed” component — the backend service that captures, encodes, and distributes camera frames in near real-time. const jpegBlob = await response.blob()
Design and Implementation of a Low-Latency Live NetSnap Cam-Server Feed for Distributed Surveillance and Real-Time Snapshot Retrieval
const ws = new WebSocket('wss://camera.local/live'); const imgElement = document.getElementById('liveFeed'); ws.onmessage = (event) => const blob = new Blob([event.data], type: 'image/jpeg'); const url = URL.createObjectURL(blob); imgElement.src = url; URL.revokeObjectURL(url); ;