Real-Time Data Transfer at Low Bandwidth over Radio Network

RadioVisionLink is an innovative solution designed to transmit video data over radio frequencies, addressing the challenges faced in various applications, particularly in military operations. By leveraging advanced technology and robust architecture, RadioVisionLink enables seamless and efficient transmission of video content in demanding environments where traditional communication methods may not suffice.For More Information Contact Us!

Real-time Video Transmission

RadioVisionLink facilitates real-time transmission of video data over radio frequencies, ensuring timely and accurate communication of critical visual information.

Robust Security Measures

With advanced encryption and authentication protocols, RadioVisionLink ensures secure transmission of video content, safeguarding sensitive information from unauthorized access.

Adaptive Bandwidth Allocation

RadioVisionLink dynamically adjusts bandwidth allocation for video streams, optimizing transmission efficiency based on network conditions and available resources.

Seamless Integration

RadioVisionLink seamlessly integrates with existing RF hardware and military imaging systems, ensuring compatibility and interoperability across diverse operational environments.

Intelligent Video Analytics

RadioVisionLink incorporates intelligent video analytics capabilities, enabling object detection, motion tracking, and real-time analysis of video content to enhance situational awareness.

Lossless Transmission

RadioVisionLink offers lossless transmission, a crucial feature ensuring data integrity even in RF communications where signal interference and weather conditions may cause loss. Unlike typical UDP transmissions, RadioVisionLink verifies data integrity manually and retransmits corrupted parts until successful receipt, allowing large video data to be transmitted without compromise.

Other Capabilities

Real-time Radio Network Bandwidth Monitoring

The product offers a system capable of monitoring the radio network bandwidth in real-time.

Live Sharing of Video Files

Video files compatible with the real-time radio band network can be shared live.

Dynamic Bandwidth Adjustment for Images

The product enables dynamic adjustment of bandwidth for images, allowing optimization based on transmission conditions.

Image Storage

Images can be stored at the relevant source for later transmission, ensuring they are readily accessible when needed.

Image Transmission

Stored images can be transmitted at a later time for use as required.

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System Architecture

Modular Design

The system comprises independent modules that perform various functions such as video codec conversion, packet timing, and device discovery. This modular structure enables adaptation to various user and operation sizes, ranging from 2 to 1000 units.

Scalability

Compatible with different RF hardware, network configurations, and military imaging systems, the system can easily adapt to operations of various sizes.

Microservices Architecture

Designed with a microservices architecture, each component of the system can work independently and scale easily.

Component-Based Design

The system is designed with a component-based architecture, ensuring clear definition and management of each component's functionality.

Load Balancing

Through middleware integration and standardized protocols, the system maintains load balancing and optimizes performance.

Video Codec Conversion

H.265 and AV1 Codec Support

The system should support efficient video coding using H.265 and AV1 codecs, necessary for high-quality video transmission.

Adaptive Bit Rate Streaming

The system should incorporate techniques to minimize the impact of packet loss on video quality. This is crucial for reducing the effects of packet loss commonly experienced in wireless networks.

Codec Selection

Video quality should be dynamically adjusted based on network conditions. This is essential for ensuring optimal video quality under varying network conditions.

UDP-Based Transfer Protocols

Due to limited usage of TCP in wireless networks, the system should utilize UDP-based secure transfer protocols. This ensures data transmission security while minimizing communication disruptions.

Network Packet Scheduling

Differentiated Services (DiffServ)

A scalable Quality of Service (QoS) mechanism marked with Differentiated Services Code Point (DSCP) in the IP header. It prioritizes different service levels to optimize network performance.

Integrated Services (IntServ)

Detailed QoS approach where applications allocate bandwidth. It allocates network resources according to each application's needs, ensuring optimal performance.

Traffic Shaping

Algorithms are used to regulate traffic rates. This balances traffic load in the network and optimizes bandwidth.

Congestion Prevention

Proactive mechanisms are employed to reduce congestion. This detects congestion in advance, preserving network performance.

Bandwidth Allocation

Bandwidth is allocated to traffic types or streams. This optimizes bandwidth distribution based on the requirements of different applications or services.

Bandwidth-Optimized File Transfers

Compression Algorithms: Data compression techniques are used to reduce the size of files, optimizing bandwidth usage for faster and more efficient file transfers.

Differential Transfers: Only the changed parts of files are transferred, ensuring more efficient bandwidth utilization, especially for large files or updates.

Device Discovery over UDP Networks

Broadcast and Multicast: Broadcasting and multicast techniques are utilized for discovering devices on the local network. This allows devices to be found through messages directed to all devices or a specific group.

Service Discovery Protocols: Protocols like mDNS or SSDP are employed for device and service discovery. These protocols enable the detection and access of services offered by devices on the network.

Smart Video Analytics and Security Encryption

Machine Learning

Object detection, motion tracking, and other analyses are used to determine the content of video. Selective video transmission ensures only relevant objects are transferred, facilitating effective data processing and transmission.

Encryption

Strong encryption algorithms are implemented for data security. Access to the network is controlled for authorized devices and users, ensuring data protection through the integration of zero-trust network security principles.

Authentication and Authorization

Real-time analysis of video data and authentication and authorization processes for users are provided. This allows only authorized users to access data, minimizing security vulnerabilities.

Real-Time Processing

A 10x bandwidth gain compared to algorithms like H.265 is achieved. `Semantic video compression` technology is adapted for wireless communication, offering a more efficient and optimized approach to data transmission, ensuring high-quality video streaming while using less bandwidth.

Get In Touch

Mustafa Kemal Mah. Dumlupinar Bul. No:280G / 112 Cankaya / Ankara

info@sparsetechnology.com

+90 312 511 22 83

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