ONVIF

Abstract: In this paper we present a decentralized surveillance network composed of IP video cameras, analysis devices and a central node which collects information and displays it in a 3D model of the complete area. The exchange of information between all components in the surveillance network takes place according to the ONVIF specification, therefore ensuring interoperability between products complying with the specification and flexibility regarding the integration of new devices and services. The collected information is displayed in a 3D model of the surveilled area, therefore providing a comfortable overview of the activity in large environments and offering the user an intuitive way to eventually interact with network devices.

Abstract: The invention discloses a video networking service front-end computer with an interconnected and intercommunicated video management platform. The video networking service front-end computer comprises a video front-end processor (FEP), a configuration client and a video management platform, wherein the video FEP consists of an analog video capture/conversion module, a universal message module, a digital video reception/conversion module, a video diagnosis module, a control protocol gateway, a coding module H.263 and a communication control protocol interface module; and the configuration client can be in information interaction with the video FEP through the video management platform so as to complete the configuration, operation and maintenance of the FEP. According to the video networking service front-end computer, the output supports ONVIF (Open Network Video Interface Forum) and GB/T28181 standard protocols, and the input supports various heterogeneous system private protocols, so that an extensive media resource support for the interconnection and intercommunication of heterogeneous video systems is provided; and meanwhile, the configuration is flexible and convenient, the network adaptability is strong, and the video data is secure and reliable.

Abstract: The invention discloses an ONVIF simulating testing device and method. The device includes: a device searching module used for searching for an online camera device in the same network segment and obtaining related information of the camera device; and a simulating testing module used for performing an ONVIF simulating test based on the related information. The ONVIF simulating test includes: protocol analysis testing, camera function testing, extended-function testing, automatic testing and reversed testing so that technical problems of test-method singularity, complex testing, high test cost and lower test efficiency, existing in the prior ONVIF testing, are solved and a technical effect that the ONVIF test is completed in a simple, efficient and diversified manner at a low cost is realized.

Abstract: The invention discloses a video monitoring system and a method for rapidly accessing a web camera. The method comprises the following steps: obtaining an IP (Internet Protocol) address distributed by a DHCP (Dynamic Host Configuration Protocol) server by an NVR (Network Video Recorder); carrying the self IP address to require a distributable dynamic IP address section to the DHCP server, and receiving a first available dynamic IP address section distributed by the DHCP server and a corresponding gateway IP address; sending a query message of an ONVIF (Open Network Video Interface Forum) in a multicasting or broadcasting manner and receiving a respond message fed back by an IPC; processing according to source IP addresses in the respond message respectively; and automatically modifying the IP address accessed into a third party IPC. The invention further discloses the video monitoring system corresponding to the method. According to the video monitoring system and the method for rapidly accessing to the web camera, the complicated operation of manually modifying the third party IPC is avoided and user experiences are improved.