From airborne drones to global broadcast networks — VideoFlow delivers uninterrupted, broadcast-grade video over any infrastructure, in any conditions.
Bonded, load-balanced video transport for unmanned aerial systems. VideoFlow's Stream Protector engine — embedded directly into the drone's onboard SBC — guarantees continuous, broadcast-grade video even when network links fluctuate or fail entirely.
A single high-bitrate stream is split across multiple network connections. The receiver reassembles all parts seamlessly — yielding higher aggregated bandwidth and built-in protection against link degradation.
Traffic is distributed across multiple devices and links for redundancy at both device and network level. If any path fails, remaining paths instantly carry the full load — zero interruption.
Seamless failover with no visible video disturbance, even during brief link interruptions or fluctuations. Situational awareness is preserved at all times.
Adapts to both CBR and VBR streams to ensure consistent timing and smooth playback across unstable wireless and mobile environments.
Forward Error Correction protects against burst packet loss using configurable 1D and 2D FEC matrices, delivering broadcast-standard video integrity over unpredictable links.
Works across any combination of 4G/5G, ADSL, RF links, satellite, Wi-Fi, or hybrid topologies — no constraints on the underlying infrastructure.
Eliminates single points of failure by distributing traffic across two or more independent paths, with lower per-link bitrate reducing congestion and drop risk.
Combines lower-bandwidth links into a single virtual high-capacity channel. E.g. a 4 Mbps stream bonded from a 3 Mbps + 1 Mbps pair, automatically load-balanced in real time.
Augments high-cost links (e.g. satellite) with low-cost alternatives — significantly improving flexibility and reducing operational constraints.
Continuous real-time video for border security, law enforcement, and defense — where mission confidence depends entirely on uninterrupted visual intelligence.
VideoFlow's Stream Protector engine embeds directly into the drone's onboard SBC — managing network distribution, jitter smoothing, packet protection, and real-time stream optimization. A paired ground-station receiver reconstructs bonded streams and restores a continuous, high-quality output automatically, in real time.
Portable installation, validation, and integration package for rapid deployment.
Bonding and load-balancing engine integrated into the drone avionics environment.
Windows-based application that reconstructs protected streams at the control station.
DVG — Digital Video Gateway is a multitool software platform delivering reliable, broadcast-grade live video over any network, converting between any industry-standard protocol. Field-proven across broadcast, defense, transportation, and hospitality globally.
Plug-and-play DVX, DVL, and DVA hardware series with physical interface to existing video feeds via HDMI, SDI, and ASI. Immediate deployment, zero overhead.
Install DVG on any on-premises server or data center. Available as a permanent CAPEX license or renewable OPEX subscription to match any commercial model.
DVG runs directly on any cloud-based virtual server — elastic, globally distributed video infrastructure with the same reliability as dedicated hardware.
The VF protocol recovers from up to 86% packet loss — the highest performance in the market.
Overall latency as low as half a second, enabling genuinely live video delivery over IP.
DVG is the only software tool supporting all industry standards and converting between them in a single platform.
Licenses per interface, not data consumption — enabling predictable budget planning with no surprises.
Combine VF Appliances and DVG Software in any configuration to fit any project scale or infrastructure.
CAPEX permanent licenses, OPEX renewing licenses, and SaaS system-as-a-service options available.
VideoFlow analyzes the internal structure of STLTP payloads and guarantees delivery exactly on time, with configurable deterministic path latency and a de-jittered output — preventing exciter re-syncs caused by delay, jitter, or packet loss in the transport network. The DVG meets the stringent reliability requirements of ATSC 3.0 SFN links.