The software delivers a full suite of features for centralized monitoring and control, such as live and recorded video viewing, AI-powered alarm management, interactive e-maps, video wall display, and IoT device integration etc. Built for scalability, it supports an unrestricted number of cameras, devices, and servers, and operates seamlessly on both Windows and Linux operating systems.

By providing operators with a complete overview and robust control over the entire installation, SVMS Pro is the ideal solution for institutions such as schools, hotels, retail chains, manufacturing plants and more.

SVMS Professional Full Guide

What Capabilities Can SVMSPro Provide After Managing Multiple Brands of AI Cameras and AI Boxes?

In today’s intelligent surveillance landscape, AI-powered cameras and servers are revolutionizing security—but managing devices from multiple brands, handling endless alerts, and coping with limited local storage can quickly become overwhelming.

That’s where SVMSPro comes in.

Meet SVMSPro—the next-generation Video Surveillance Management Software from Daxun Digital, built to unify, simplify, and elevate your entire AI surveillance ecosystem across diverse hardware brands.

1.Unified Multi-Brand Device Management

Instead of juggling different software interfaces and protocols for each brand, SVMSPro seamlessly integrates AI cameras and AI boxes from various manufacturers into a single, cohesive platform—so you can manage everything from one dashboard, regardless of brand or model.

2. Centralized Evidence Storage & Automated Response

AI cameras, AI boxes, and AI servers often lack sufficient local storage. When an alarm fires, vital video or images risk being overwritten—or lost forever.

SVMSPro solves this at the source.

The moment any connected AI device detects an event—whether it’s intrusion, loitering, or object removal—SVMSPro receives the alert in real time and immediately triggers intelligent actions:

Start high-quality alarm-triggered recording,

Capture detailed snapshots,

Activate PTZ tracking to follow the subject

And securely store everything on the centralized SVMSPro platform—not on fragmented front-end devices.

No more missing evidence due to full disks. Now, users can search, view, and retrieve all alarm-related videos and images anytime, anywhere—via the SVMSPro web interface or desktop client—fast, reliable, and always available.

Illegal Parking Snapshot

3. Role-Based User Management

With SVMSPro, administrators gain granular control over user access across mixed-device environments. Create custom accounts, define roles, and assign specific AI video channels—even from different brands—to each user.

When a user logs in, they see only the feeds and functions relevant to their roles and receive alerts exclusively from their assigned devices. This ensures operational efficiency, enhances data privacy, and keeps your team focused on what matters most.

User Management

4. Real-Time Mobile Alerts

Critical events don’t wait—and neither should your response. SVMSPro pushes real-time alarm notifications directly to users’ smartphones via the SVMSPro mobile app. Notifications are filtered based on user roles and assigned devices, so security teams, facility managers, or executives get only the intelligence they need, the moment it happens. Whether you’re on-site or across the globe, you stay in the loop—ready to act.

5. Cross-Platform Analytics & Reporting

SVMSPro harmonizes data from different AI devices, enabling integrated behavior analysis, event statistics, and customizable reports. Turn multi-source video inputs into actionable insights—all within one system.

Conclusion

SVMSPro is more than just a VMS—it is the central nervous system for your multi-brand AI vision infrastructure. By unifying diverse devices into one intelligent platform, it turns fragmented data into coordinated insight, enabling organizations not only to see but also to act with clarity and speed.

Across industries, SVMSPro delivers adaptable, enterprise-grade vision intelligence:

In retail ,it analyzes customer flow and detects shelf anomalies while preventing theft through real-time cross-camera tracking.

In  transportation it monitors traffic incidents, manages vehicle access, and enhances passenger safety with automated alarm-based recording.

In manufacturing it safeguards restricted zones, oversees production line activity, and ensures compliance through auditable event logs.

In education it secures campuses by identifying unauthorized entry and sending instant alerts to designated personnel.

In smart cities it correlates inputs from scattered cameras and AI boxes to provide a unified view of public safety and operational efficiency.

By centralizing evidence storage, streamlining role-based access, and pushing real-time alerts to any device, SVMSPro ensures that your AI-powered surveillance ecosystem is always secure, manageable, and ready to scale.

Bridging Silos, Building Intelligence: The Daxun Unified IoT & Video Surveillance Solution

What if you could unify your fragmented video and IoT data into a single source of truth, transforming raw information into actionable intelligence?

The Hangzhou Daxun Digital IoT Surveillance System is the answer. We move beyond simple monitoring to deliver a holistic operational platform that seamlessly merges video surveillance with a vast ecosystem of IoT sensors. This empowers you to not just “see” what’s happening, but to understand and act upon it in real-time, turning disparate data streams into your most strategic asset.

Our Core Solutions:

1. From Disparate Data to Unified Control: The Single Pane of Glass

We solve the challenge of managing multiple, disconnected systems. Our platform aggregates video streams from any brand of camera and integrates data from a wide array of IoT sensors and third-party systems across power, agriculture, water, and logistics. The result is a single, centralized command center for complete real-time visibility and control.

2. From Raw Numbers to Clear Insights: Intelligent Data Visualization

We solve the problem of data overload. Daxun transforms complex sensor readings and video feeds into intuitive, comprehensive visualizations. With real-time data displays and historical data querying in both list and chart formats, you can instantly grasp environmental conditions and derive actionable insights—no technical expertise required.

3. From Reactive Monitoring to Proactive Intervention: The Intelligent Guardian

We solve the issue of delayed response. Our intelligent alarm module detects undesired conditions the moment sensor readings exceed thresholds. It then automatically triggers corrective actions—like starting video recording, capturing snapshots, or sending real-time alerts directly to your mobile device. This allows you to address incidents immediately, often before they escalate.

4. From Abstract Data to Tangible Context: The Situational Awareness E-Map

We solve the challenge of understanding events in their physical context. Our e-map module fuses real-time IoT device data, live video feeds, and GIS mapping into one intuitive interface. Visually monitor asset locations, status, and associated video from a centralized platform for immediate situational awareness.

Key Benefits: Drive Tangible Business Outcomes

Boost Operational Efficiency: Monitor equipment and resources in real-time to optimize performance and reduce waste.

Prevent Hazards Proactively: Receive instant mobile alerts from safety sensors to address risks immediately.

Increase Productivity: Track machine runtime and output to streamline operations and sync them with costs.

Ensure Quality & Integrity:  Use sensors to monitor storage conditions and protect sensitive goods from spoilage.

Empower Strategic Decisions:  Leverage integrated IoT data and analytics to uncover new opportunities and improve decision-making.

Manage from Anywhere:  Remotely oversee your facilities and verify alerts with a mobile app.

Conclusion & Applications

The Hangzhou Daxun platform is engineered for modern industrial and commercial challenges. It is ideally suited for:

Manufacturing – Secure facilities and optimize production line efficiency.

Smart Agriculture – Monitor crop health and precisely control environmental conditions.

Power & Utilities – Manage energy distribution and monitor critical asset performance.

Logistics & Supply Chain –  Ensure the integrity of temperature-sensitive goods throughout the entire chain.

Ultimately, Daxun enables a fundamental shift from reactive monitoring to proactive, intelligent management—driving safety, efficiency, and sustainable business growth.

IoT Data Real Time Display

IoT Historical Data Display

Video Surveillance Management Platform SVMS Pro: Multi-Storage Solutions Elevate Data Security

In the era of digital transformation for security systems, data storage demands unprecedented levels of security, flexibility, and reliability. Addressing these needs, the video surveillance management platform SVMS Pro pioneers a versatile approach by supporting centralized local storage, long-term storage and S3 cloud storage. This tri-modal architecture establishes a comprehensive, multi-layered data management system, providing a robust data foundation for intelligent security scenarios.

I.SVMSPro’s Scenario-Driven Storage Solutions

1. Centralized local Storage: recording on local SVMSPro server directly.—Real-time response with secure control.

Core Capabilities:

Deployed on local servers, SVMSPro ensures real-time writing and millisecond-level retrieval of video streams, alarm logs and other critical data. Its open 1+N stackable architecture allows unlimited expansion of recording storage servers. By adding subordinate servers (or disk groups including IPSAN/NAS) along with disk arrays and network bandwidth, users achieve extended recording recording durations while boosting storage performance — all without compromising system stability during sustained operation, provided environmental requirements are met.

Centralized storage module based on Linux OS supports up to 200 channels front-end video per server, with N+1 stackable expansion capability. This distributed architecture enables clustered storage servers, allowing project scalability through additional subordinate storage modules—all without modifying existing deployments.

SVMS Pro Centralized Local Storage

Scenario Adaptation:

The physically isolated network environment meets stringent data sovereignty requirements for government, financial, and other high-security sectors.

24/7 real-time surveillance storage

Localized data retention for sensitive areas (e.g., secured facilities)

2.Long-Term Storage: High-Throughput Writing & Enduring Trustworthiness

Core Capabilities:

High-Efficiency Write Performance: Buffer layer resolves speed bottlenecks.

By establishing a high-speed buffer layer on local disks, the system temporarily absorbs high-concurrency write requests. Data is then seamlessly migrated to IPSAN disk arrays through asynchronous mechanisms. This architecture prevents I/O congestion caused by direct writes to disk cabinets, ensuring stutter-free, real-time 24/7 surveillance video ingestion. The local buffer accommodates burst traffic peaks (e.g., simultaneous alarm recordings from multiple cameras), effectively reducing backend storage pressure.

IPSAN disk cabinets support scale-out expansion, enabling linear increases in storage capacity and performance through node additions.

This buffer-layer-to-IPSAN architecture aligns with data lifecycles, automatically tiering cold data to high-density, low-power storage media.

SVMS Pro Long Term Storage

Operational & Economic Benefits:

TCO Reduction: Prioritizes high-frequency data in the buffer layer while migrating low-frequency data to high-capacity IPSAN, boosting hardware utilization by 30%.

Energy Efficiency: IPSAN’s disk hibernation technology cuts idle-period power consumption by 50%, advancing green data center initiatives

Scenario Adaptation:

Long-term evidence archiving for legal cases

Regulatory-compliant data retention (e.g., airports, metro surveillance)

3.S3 Cloud Storage: Elastic Scalability & Intelligent Collaboration

Core Capabilities:

Deep Integration of the S3 Object Storage Protocol

With deep integration of the S3 object storage protocol, SVMSPro seamlessly connects to major provider services like Alibaba Cloud OSS, Tencent Cloud COS, and Amazon Cloud – along with private object storage solutions based on S3 storage protocol. This delivers limitless capacity expansion, leveraging cloud elasticity to effortlessly handle petabyte-scale video growth.

Eliminating the need for physical servers, the platform directly utilizes cloud resources through pay-as-you-go models, significantly reducing hardware investments and operational costs.

Critically, it enables unified cloud aggregation of recordings from geographically dispersed branches, achieving efficient center-edge management. Whether deploying in smart campuses, retail chains, or energy/transportation networks, SVMSPro empowers enterprises to flexibly adopt public, private, or hybrid cloud architectures – truly realizing unified cloud-based security governance.

SVMS Pro S3 Cloud Storage Configuration

Dual-Backup & Intelligent Disaster Recovery

Dual Backup + Intelligent Disaster Recovery: “Dual Insurance” for Critical Data.

The value of security data comes with inherent risks. Once video footage is lost, it can lead to immeasurable losses. To address this, SVMSPro innovatively introduces a   “Local + Cloud” dual-backup mechanism, leveraging S3 storage features to build multiple layers of security:

Real-Time Dual-Writing:  Video recordings are first written to the local disk (acting as a cache buffer). Once locally persisted, the data is simultaneously replicated to cloud-based S3 storage, ensuring instant failover if either node fails.

SVMS Pro S3 Cloud Storage

Smart Hot/Cold Tiering:   Frequently accessed “hot” data remains on local storage, while historical footage is automatically archived to low-cost cloud storage, optimizing storage expenses.

Cross-Regional Disaster Recovery:  By utilizing multi-replica and cross-region replication features of carrier-grade S3 storage, the system inherently resists physical risks like earthquakes or fires.

Additionally, the platform ensures end-to-end data security through   integrity verification and encrypted transmission , safeguarding data across the entire lifecycle—from storage and transmission to access.

Scenario Adaptation:

Cloud backup/disaster recovery for massive video archives

Centralized storage management on cloudy for multi-regional branches

II.Multi-Storage Synergy: Fortifying the Data Security Moat

SVMSPro’s flexible integration of  centralized local storage, long-term storage and S3 cloud storage  delivers precision-matched solutions for diverse security scenarios:

On centralized local storage Storage: Enables fully private, clustered deployments for barrier-free expansion and uncompromised data security.

Long-Term Storage: Combines local buffering with IPSAN to achieve zero frame loss under high concurrency and tamper-proof archival—meeting judicial standards for data integrity. It serves as the “ultimate vault” for high-stakes environments (government, finance, transportation).

S3 Cloud Storage: Unleashes global data value through limitless scalability, cross-region collaboration, and cloud-native disaster recovery, transitioning from mere “storage” to “data empowerment.”

Whether deploying  private on-centralized local storage, implementing forensic-grade retention for long-term compliance, or leveraging S3 cloud storage for seamless collaboration, SVMSPro consistently adheres to its core principle: “Scenario-Defined Storage, Security-Throughout-the-Chain”. .This empowers every piece of security data to be:

Stored with pinpoint accuracy,

Protected with comprehensive safeguards,

Accessed with optimal efficiency.

Ultimately, SVMSPro   strengthens the data security moat  for the digital security era.

SVMS Pro & AI Edge Boxes: A Unified Intelligent Solution for Cost-Effective, Intelligent Video Management

Currently, in security surveillance, the application of intelligent analysis technology has two approaches: front-end intelligence and back-end intelligence.

Front-end intelligence is typically implemented within the video surveillance camera itself, integrating AI edge algorithms into the camera. Its advantages include: acquiring video in real-time and performing video analysis and feedback results immediately.

Benefits:

No consumption of network resources like bandwidth;

Offers real-time and highly efficient analysis;

Obtains results immediately; relatively low cost;

Highly flexible deployment.

Disadvantages: Due to the small physical size of cameras, hardware expansion space is limited. AI edge algorithms are often confined to a fixed few types, such as perimeter intrusion detection, tripwire, abandoned object detection, etc. It cannot flexibly load customized intelligent functions.

The other approach is back-end intelligence , which usually requires installing intelligent analysis server in the monitoring center, integrating AI edge algorithms into this back-end server.

Its advantages: Hardware components can be flexibly expanded based on project requirements, thereby enhancing the server’s overall analytical capability. It can also flexibly customize and load various intelligent algorithms according to project needs, capable of loading dozens or even hundreds of algorithms. Disadvantages: Because back-end intelligence requires first collecting the video stream from the front-end cameras in real-time before analysis, it consumes significant resources like bandwidth. It cannot provide immediate feedback of intelligent analysis results like front-end intelligence, lacks flexible deployment options, and the cost is very high.

With the development of intelligent analysis technology, AI edge analytics boxes have emerged in the security surveillance market, representing another front-end intelligence product. These boxes themselves can integrate dozens of AI edge algorithms, enriching the variety of AI algorithms available for front-end intelligent cameras while maintaining flexible deployment. Users can freely choose to deploy the box at the front-end (near the camera) or at the monitoring center end to function as a small intelligent analysis server.

When deployed at the front-end (camera side):  There is no need to dismantle existing video surveillance equipment. The real-time video stream from the original camera can be analyzed directly within the AI box, and results are fed back. Since the camera and AI box are usually on the same network, this consumes minimal bandwidth resources, offering excellent real-time performance, timeliness, and efficiency. After the AI edge analytics box analyzes the video, the results can be transmitted to the monitoring center video management platform server via the internet, VPN dedicated line, 4G, 5G, etc., for storage, real-time display, and retrieval.

When deployed at the monitoring center end: The AI edge analytics box can function as a small video analysis server. Individual AI analytics boxes can be stacked to aggregate their analytical power, enabling the analysis of large volumes of video streams transmitted from the front-end.

Since the cost of the AI edge analytics box itself is significantly lower than that of a full intelligent analysis server, using AI analytics boxes to implement intelligent solutions is often more economical and practical for small to medium-sized intelligent security surveillance projects.

AI Box Application

AI Box Deployment Application

Since the Edge AI Box does not require changes to existing video surveillance equipment deployments and only upgrades the original system to enable intelligent applications for existing monitoring devices, it can save significant labor costs associated with on-site deployment personnel.

After the Edge AI Box and AI-powered cameras transmit intelligent analysis results to the platform, what can the platform do? Taking the video surveillance management platform SVMS Pro as an example.

First SVMS Pro provides centralized management for multiple AI Boxes across diverse networks (LAN, WAN, VPN, 4G/5G). This flexibility enables users to deploy AI Boxes anywhere project requirements demand.

With the AI Box and cameras connected to the SVMS Pro video surveillance management software, users can select video channels for analysis. The AI Box automatically analyzes the chosen channels, transmits the results, and triggers alarms back to SVMS Pro. This seamless integration provides a unified platform for users to:

Configure event settings

Define alarm-triggering actions (such as alarm recording and alarm video pop-up). Alerts originating from the AI Box can trigger video recording via the SVMS Pro platform. These recordings are then stored long-term within the SVMS Pro platform. This capability resolves the limitation of the AI Box itself, which cannot store recordings for extended periods due to constraints imposed by its physical size.

Search historical alarm events

Manage active alarms

View alarm statistics

Additionally, SVMS Pro facilitates pushing the analyzed results to third-party platforms via the network.

Perfectly Integration With SVMS Pro

AI box + video surveillance management software SVMS Pro provide various AI intelligent solutions for different scenarios. For example:In smart construction site applications, AI box can provide not wearing safety helmet and reflective vest detection, fight detection, area intrusion detection, wandering detection, fire detection etc, and display real time results in real-time on SVMS Pro. Users can watch real time video from different places, store the recordings, playback, get the real time AI alarms, put the video on the video wall etc all in one platform.

Not Wearing Safety Helmet Detection

IIn essence, the combined force of SVMS Pro and AI Edge Boxes presents a truly unified and intelligent solution, effectively overcoming the inherent limitations of both traditional front-end and back-end surveillance intelligence. The AI Edge Boxes deliver powerful, real-time analytics at the edge or as scalable micro-servers, offering unprecedented flexibility and cost-effectiveness – particularly vital for small to medium-sized projects. SVMS Pro elevates this capability by providing centralized command and control, seamlessly integrating diverse AI Boxes across any network to offer comprehensive video management.

This synergy enables robust features like intelligent event configuration, alarm-triggered recording with long-term SVMS Pro storage, historical event search, and cross-platform integration, all within a single, cost-optimized platform. From construction sites to broader security networks, this unified solution transforms raw video into actionable intelligence, democratizing advanced AI surveillance by making it accessible, practical, and economically viable. SVMS Pro and AI Edge Boxes together redefine intelligent video management for the modern era.

Where And How To Store Security Camera Footage?

Where and how to store security camera footage is usually depends on the scale of the video surveillance project , the way you are using to record the video and how long you want to keep the recordings .

If there are only few IP cameras, say 2~3 IP cameras for example, and you don’t need to keep the recordings for the month, usually using SD card which is installed in the camera is enough. Let’s set one channel 1080P IP camera for example. If using continuous recording, one H.265 1080P camera with 2Mbps bit rate usually will take 21.6GB storage. Thus, if using 256M SD card and doing continuous recording, it can record the video for nearly 12 days. However if using motion detection recording, the recording days will expand longer than 12days.

If there are more than four cameras, even up to 128 cameras, users can use NVR or CVR to install the recordings. Set 4pcs of H.265 1080P IP camera, each with 2Mbps bit rate for example. If using continuous recording, 4pcs of 1080P IP cameras recording for 30days will take 10.37TB. In this way, preparing 1pc of 4ch NVR which is equipped with one 16T hard disk or two hard disks,each with 8T capability is enough. About how to calculate the video storage, please use the tool: video recording storage calculator

However if there are hundreds or thousands cameras which need to managed and recorded, in this way video management software with centralized recording storage is needed. User can use VMS software to manage those cameras in one platform, and record those surveillance videos in its centralized storage servers. In this case, we sincerely advise you to use an open platform architecture platform, so that with the expansion of the project scale in the future, the system also can be expanded infinitely.

Take the video surveillance management system SVMS Pro as an example. The platform adopts a modular design and a master-slave open architecture. It allows that one master control server can be equipped with any number of slave/sub servers to do streaming media distribution and video recording storage. 1+N Master-slave centralized storage architecture allows users to meet long time recording storage of expanding video channels by increasing the installation of storage sub-servers. Thus the platform can be scaled as the business needs evolve from hundreds to the thousands of channels.

SVMSPro-Storage-Server-Setting

SVMS Pro 1+N Master-Slave Centralized Storage Architecture

SVMS Pro 1+N Master-Slave Centralized Storage Architecture

How can a third-party video management software platform (VMS) manage multi-brands video devices?

The most important way is to build up communication bridge between front-end video devices and VMS platform, and make sure the communication between front-end video devices and platform can be put through.

What are the communication bridge between front-end video devices and VMS platform?

The most common way is using standard protocols,such as ONVIF, RTSP, GB/T28181. Nowadays most famous overseas video surveillance manufacturers all support the standard protocol ONVIF, RTSP, which enable VMS system easily to access their video devices (such as IP cameras, and NVR).

However the protocols like ONVIF, RTSP are usually used in LAN network. If for video devices connecting in WAN network between VMS platform, GB/T28181 protocol is undoubtedly good choice. However this GB/T28181 protocol is very popular in China’s video surveillance market not for overseas market. Because in China most of video devices will support this protocol when go out of the factory.

Therefore many mainstream video surveillance manufacturers also provide their own private protocols which enable third-party VMS platform to manage front-end video devices via LAN and WAN network conveniently. For example, Hikvision provides Ehome/ISUP protocol, Dahua provides auto register protocol, TVT provides active register protocol etc. Some video surveillance manufacturers also provide P2P protocols, such as XM P2P protocol, Topsee P2P protocol etc.

If the video devices don’t have any protocols, the platform also can build up the communication bridge by integrating video device’s SDK.

Therefore for the VMS system, the more protocols it supports, the easier it can put through communication with the front-end video devices.

Set video management software platform SVMS Pro for example. It can support multiple standard protocols, such as ONVIF, RTSP, RTMP, HLS, WS-FLV, HTTP-FLV, GB/T28181 etc. It also supports many mainstream manufacturers private protocols, such as Hikvision Ehome/ISUP, Dahua auto register protocol, TVT active register protocol, Huawei active protocol, IMOU cloud protocol,

EZVIZ cloud protocol etc, and many other manufacturers P2P protocol, such as XM P2P protocol, Topsee P2P protocol etc. What’s more? SVMS Pro also has strong ability to integrate SDK of video devices very fast. All of these make SVMSPro easily access to multiple brands of front-end video devices via various kinds of network environment: LAN, WAN, VPN, 4G/5G digital network etc and manage those devices conveniently all in on platform.

About how to add Hikvision and Dahua cameras in WAN network to video management software platform, please check the video.

About how to add XM cameras in WAN network to video management software platform SVMSPro, please check the video.

SVMSPro Application

How to get and converge the face images from the cameras on the video surveillance management platform SVMSPro?

.

There are two solutions to get and converge the face images from the front-end cameras on the video surveillance management software SVMSPro.

Solution 1: If the front-end cameras already have face captured function and support GA/T1400 protocol, you can use video surveillance management software SVMSPro to manage those cameras directly, because the SVMSPro platform has already supported GA/T1400. All the face images can be transferred from cameras to the SVMSPro platform via GA/T1400 protocol to store and display.

How to set face recognition display via GA/T1400 protocol on SVMSPro?

A. Map the GA/T1400 face image transferring port.

The default port for face image transferred by GA/T1400 is 8203. You can find and modify this port in the sentence:

FacePort=8023

of the file “SConfig.ini”, which is under SVMS Pro server installation route, the default installation route is: C:\SVMS Pro\SConfig.ini .

Note: Please map this face default port 8023 before configuration. If not necessary, please don’t change this port.

B. Set view library (GA/T1400 protocol) parameters for front-end video devices. Set Hikvision and Dahua IP cameras for Examples.

1. How to set view library (GA/T1400 protocol)parameters for Hikvision IP cameras?

Procedure

Step 1: Log into Hikvision IP cameras’ website. Enable “Face Snapshot/Captured” menu, which you might find by going to Configuration > System Setup > Intelligent Resource Allocation. After setting, please click Save.

Hikivision IP Camera Web Interface

Step 2 : Go to Configuration > Network > Advanced Configuration > View Library, enable View Library. Please select view library version: VIID_201804, image uploading method: binary. Please input custom content for device ID.

Note: This device ID should not conflict with other devices’ ID. Please input admin for video library’s username and passwords. The server IP address is SVMSPro WAN IP address, input server ports: 8023.

Note: If you have changed the GA/T1400 face image transferring port, please input the changed port here correspondingly. Video channel’s ID is the same with device ID. After configuration, please click SAVE button.

Hikvision View Library Configuration Interface

Step 3: Click Face Snapshot/Captured to set corresponding face snapshot parameters.

Note: If using ONVIF protocol, default port is 80. If front-end camera has change the port, please input the port accordingly.

Hikvision Face Snapshot Setup Interface

Note:
1). We only have Hikvision IP camera’s Chinese menu here, please find similar translation in their camera’s English UI.
2) Please make sure Hikvision IP camera has view library function and supports GA/T1400 protocol.

2. How to set view library (GA/T1400 protocol) parameters for Dahua IP cameras?

Procedure

Step 1: Log into Dahua IP cameras. Go to Setup>Network Setup > Platform Access > View Library.

Step 2: Enable the view library. The server IP address is SVMSPro WAN IP address, input server ports: 8023.

Note: If you have changed the GA/T1400 face image transferring port, please input the changed port here correspondingly. Please input any custom content for device ID.

Note: This device ID should not conflict with other devices’ ID. Video channel’s ID is the same with device ID. Select View Library Collection Objects you need. After configuration, please click Save button.

Dahua View Library Configuration Interface

Step 3: Find Face Detection on the left menu, then enable this function. Input the corresponding parameters.

Dahua Face Detection Configuration Interface

Note:
1) Face Detection must be enabled, if not, the captured face imaged cannot be transferred to platform.
2) We only have Dahua IP camera’s Chinese menu here, please find similar translation in their camera’s English UI.
3) Please make sure Dahua IP camera has view library function and supports GA/T1400 protocol.

C. Display face image on video surveillance management software: SVMSPro platform.

Procedure

Step 1: Run SVMSPro server and get SVMSPro WAN IP address.

Step 2: Set the IP camera’s view library, refers to B. Set view library (GA/T1400 protocol) parameters for front-end video devices.

Step 3: Run SVMSPro client program, and log into SVMSPro client. Go to Device Management > Face Recognition Device.Click Search, the Hikvision and Dahua IP camera will be displayed on SVMSPro. Select Device, then click Add to add this device. Input Device Name, then click Confirm to complete adding.

Add Face Recognition Cameras To SVMSPro Platform

Step 4: Select one face snapshot camera on the left, then click Linked Channel to link the video camera for that face snapshot device.

Link the Video Camera For Face Recognition Camera On SVMSPro

Step 5: Click Face Recognition Display on SVMSPro, then select one linked video channel. Its video and captured face image will be displayed, see the image below.

Face Recognition Display On SVMSPro

Solution 2: If the front-end cameras don’t have face captured function and don’t support GA/T1400 protocol, you can install an AI box with face recognition function between camera and platform, using AI box to capture the face image and doing face comparison. Then transfer the face captured image and face comparison results from AI box to SVMSPro platform to save and display.

AI Box deployment

How to get the face image from AI box and display face recognition image and results on SVMSPro?

First of all, the video surveillance management software SVMSPro must have integrated AI box. The SVMSPro can integrate AI box by its SDK or any communication protocol, such as HTTP protocol.

Second set the face recognition parameters on AI box. Set RJ series AI box for example.

Procedure

Step 1: Log into RJ box web, with account name admin, and passwords admin. Go to Video Source > Add to add one video camera for AI box. The box supports ONVIF, RTSP, RTMP,HLS,EZV,DSS,ISC,GB/T28181 protocol, you can input camera’s corresponding video URL, such as RTSP URL, ONVIF URL etc.

Note: The image resolution for the added video should be 1080P.

Add Video Resource

After adding, the channel status will be displayed.

Channel Status

Step 2: Go to Face Database Management > Registry Face to add the face to the face database.

Add Face Image To Face Database

Face Id: Input any custom content for face ID

Note: Please don’t conflict with other face ID.

Name: Input the name for this face image

Save to Repository: You can create the new face repository by inputting the new name here. Or you can choose the current repository for this face image.

Face Image: Click + to add the face image for the face database.

Note: The size for face image <1MB, height <3900,width <3900.

Step 3: Add the AI algorithm task for that added camera video, by going to Task Management>Add

Add AI Function

Task ID: Input the camera ID for the task ID.

Note: The task ID number should be same with video ID number.

Video Source: Select one video camera for the face recognition AI function.

Alarm Listener URL: Input SVMSPro platform IP address. The rule is: http://SVMSPro IP address:18886/aievent . For example: http://192.168.0.123:18886/aievent

Algorithm Settings: Enable Face Recognition.

Set Face recognition parameters below:

Face recognition parameters

Threshold for similarity: compare the similarity with the face image in face database. The default value is 0.4. The higher value means more similar with the face picture in the face database.

Enable GA/T1400: Enable the face snapshot image to transfer via GA/T1400.

Enable Multi-Frame Judgement: When enable this selection, it will increase the demands for the environment, and it is hardly to detect the face image, when people are walking.

Threshold for strange: Input the threshold value for strange. If the similarity of the stranger is less than this value, it will be reported as stranger.

Alarm interval: Set alarm interval time to report the alarm information to the upper level platform.

Please select the face repository: Please select the face repository for the face comparison.

Minimum face pixel: Set the value for minimum face pixel. When the face pixel is lower than this defined value, it cannot detect the face image.

After configuration, please click Save to exit.

Step 4: Go to Option > Configuration Area to set the detection area for this video camera. After Setting, please trigger the alarm.

Set The Detection Area For Face Recognition

Step 5: Log into SVMSPro Client. Go to Device Management > AI server, the AI box will be auto registered and listed on the SVMSPro. Click AI Device on the left, then click Add To Management to add this AI box. Please don’t forget to input user name and password when adding.

Add AI Box On SVMSPro

Step 6: Select the AI box, then click Add Channel for this AI box. The Name and Channel No. should be the same with Task ID number which you set in the RJ series AI box.

Add Channel For AI Box On SVMSPro

Step 7: Selected the added channel, then click Linked Channel to associate the video camera for that added channel of AI box on SVMSPro.

Link the video camera for that added channel of AI box on SVMSPro

Step 8: After configuration, please go to Control Panel > AI Alarm. Click one window, then drag the associated video channel to that window or double click the associated video channel under the AI box to open the video. When trigger the alarm, the face image will be transferred and displayed on the SVMSPro, see the image below. You can click Historical Record to check the face recognition alarm historical record information.

Face Recognition Displayed On SVMSPro

Face Recognition Historical Alarm Record

How to manage Hikvision and Dahua video devices on video management platform SVMSPro via WAN and LAN?

.

Hangzhou Daxun Digital video management platform software SVMSPro can manage multi-brands video devices in one platform via various network environment,such as LAN, WAN, VPN, 4G/5G digital network etc. Set Hikvision and Dahua video video devices for examples, how can Daxun Digital video management software: SVMSPro manage these two brands in one software platform?

First of all, SVMSPro platform supports standard protocols: ONVIF, RTSP, RTMP, HTTP-FLV,WS-FLV, GB/T28181, which makes SVMSPro easily access to Hikvision and Dahua front-end video devices, such as IP cameras, NVR, CVR etc via LAN, VPN and manage them all in one platform. Second SVMSPro has also already integrated Hikvision and Dahua video devices’ SDK, which make SVMSPro conveniently manage Hikvision and Dahua video devices and receive the alarm information from them. What’s more, SVMSPro also supports their private protocols: Hikvision Ehome/ISUP protocol and Dahua register protocol, which makes SVMSPro to manage Hikvison and Dahua video devices via WAN, LAN, VPN, 4G/5G digital network easily.

How to add the devices in SVMSPro in LAN, VPN?

There are three ways:

1) Adding Device Manually

Procedure

Step 1: Login to the SVMS Pro Client. On the Control Panel page, click Device Management.

SVMSPro Main Interface

Step 2: On Device Configuration interface, right click one added area under Device List, then select “Add Device”.

Area Right-Click Menu

Step 3: Input device name, IP address, port, user name, passwords and select device category, then click Confirm to exit.

Note: If using ONVIF protocol, default port is 80. If front-end camera has change the port, please input the port accordingly.

Add Device Interface

2) Adding Devices By Searching for Online Devices

Search for devices on the same network with the platform before you can add them to the platform.

Procedure

Step 1: Login to the SVMS Pro Client. On the Control Panel page, click Device Management to enter device management interface.

Step 2: Click Search. Then the devices on the same network will be searched and displayed in the form.

Step 3: Select one area. Then select the cameras you want to be added under this area, click Add to add the cameras.

Searching For On Line Devices

3) Adding Device By Importing Device File

Procedure

Step 1: Find “Import_Devices.xlsx” file under your SVMS Pro Client installation route. If you install SVMS Pro client program in C disk, you can find this file under the route: C:\SVMSPro_Client.

Step 2: Input the device information: device type, plugin ID, device name, IP address, port, username and password in this file.

Step 3: Login to the SVMS Pro Client. On the Control Panel page, click Device Management to enter device management interface.

Step 4: Click Import Device to import this file. Then right click Monitor Area under device list, click Refresh Tree on the right click menu to refresh the device tree.

Import Devices

How to add the devices in SVMSPro via Hikvision and Dahua private protocol in WAN, LAN, VPN and 4G/5G network?

1) Adding Hikvision Video Devices By Ehome/ISUP Protocol

When access to Hikvison video devices (such as IP cameras, NVRs) by using Hikvision’s Ehome/ISUP protocol, front-end Hikvision video devices do not need to provide fixed IP address or map the ports.

Procedure

Step 1:Open Hikvision network camera web browser by inputting camera’s IP address on the WEB browser. Login by its account and password. Go to Configuration > Network > Advance Settings > Platform Access.

Step 2: Select Ehome or ISUP protocol as the platform access mode. Then select Enable.

Step 3: Select a Ehome/ISUP protocol version, and input SVMS Pro platform WAN IP address. If managing cameras in LAN, please input SVMS Pro platform LAN IP address for server address. Input the port 7660. Then click Save on this Platform Access configuration page of Hikvision network camera.

Note: When select protocol version ISUP5.0, please input passwords: a12345678.

Hikvision Camera Configuration

Step 4: Map the SVMS Pro Server network ports 7660 (UDP+TCP) and 54000-55000 (UDP+TCP).

Step 5: Login to the SVMS Pro Client. On the Control Panel page, click Device Management to enter device management interface.

Step 6: Click NAT Device, this registered Hikvision network camera will be listed.

Step 7: Select one area, then select the device. Click button Add To Management to add device.

Adding Hikvision Video Device To SVMSPro

2) Adding Dahua NAT Video Devices By Dahua Auto Registration Protocol

When access to Dahua NAT video devices (such as IP cameras, NVRs) by using Dahua auto registration protocol, front-end Dahua NAT video devices do not need to provide fixed IP address or map the ports.

Procedure

Step 1:Open Dahua network camera web browser by inputting camera’s IP address on the WEB browser. Login by its account and password. Then go to  > Network > Register.

Dahua Auto Register Interface

Step 2: Enable Register, then input SVMS Pro platform WAN IP address for server address. If managing cameras in LAN, please input SVMS Pro platform LAN IP address for server address. Input port 9500 and camera’s custom ID for sub-device ID. Then click Apply to save the configuration.

Note: Sub-device ID should not be conflicted with other devices.

Step 3: Map the SVMS Pro Server network ports 9500 (TCP).

Step 4: Login to the SVMS Pro Client. On the Control Panel page, click Device Management to enter device management interface.

Step 5: Click NAT Device, this registered Dahua network camera will be listed.

Step 6: Select one area, then select the device. Click button Add To Management to add device. Please input correct camera login account and password for this device.

Adding Dahua Video Device To SVMSPro

Video management middleware solution:

easy deployment, cost savings and more.

.

Published on 01 June, 2022

.

What is security video management middleware solution?

Video management middleware solution is a software system that lies between various brands front-end video devices and the applications running on it. Essentially functioning as hidden video translation layer, middleware enables video communication and video data management for distributed applications. It’s sometimes called video plumbing, as it connects two ends together so video data and databases can be easily passed between the “pipe” for various applications.

Why the security video management middleware is needed?

Easy deployment and saving cost

With the progress of the security technology, some old security infrastructures need to be upgraded as well, such as community security project, school security projects. If replacing all the front-end cameras, it will cost a lot. The most economical and efficient way is to add new functional cameras at most important monitoring spot, while still keep some old cameras. Thus the video management middleware is needed. Users only need to install middleware software on the computer.

By the video management middleware, users can aggregate and manage the video resources from various brands front-end video device without replacing the original monitoring equipment and deployment, thus making full use of old devices and greatly reduce the cost of video integration and application.

Aggregates all the video resources from front-end video devices, then transport standard video data to the application system

What’s more, nowadays many application system focus more on practical applications based on different fields, providing more value beyond security. Set chain store security project for example, besides products assets security, health and safety of employees and customers, application system will also provide marketing figures of most favorite products, crowd statistic figures, analyze the change of passenger flow etc to help manager to know the situation of each stores, adjust the sales strategy according to market changes.

Therefore instead of investing a lot of energy in video aggregation by their own, application system companies prefer to focus more energy on application-level development. Thus video management middleware place as key part to aggregate all the video resources from front-end video devices, then transport standard video data to the application system for incorporation as part of their own video solution.

What can security video management middleware provide?

As video management middleware mainly act as plumbing, it acquires, gathers and manages the video data from external devices (IP cameras and encoders), stores video in a video archive, re-streams video to the application system or clients in live mode as well as on demand. Set Daxun video management middleware platform SVMS as an example, it provide following features:

It can easily acquire the video data from various brands of IP cameras and encoders. Up till now it has supported thousands of devices from a large number of manufactures, such as Axis, Sony, Bosch,Hikvision, Dahua, Huawei,Uniview etc.

At the same time It offers standard video protocols and media formats for the third-party seamlessly integration. For example, GB/T28181, RTSP,RTMP, HTTP-FLV,HLS, Web Socket etc are provided to push to the upper application platform.

It supports all kinds of clouds, such as Aliyun Cloud, Tencent Cloud, Baidu AI Cloud, JingDong Cloud, Huawei Cloud, Amazon Cloud, Kingsoft etc. For more details, please take a look: middleware for video surveillance.

Following is the picture to help you understand more about how security video management middleware works.

Video Management System ( VMS)

What is a VMS?

A Video Management System (VMS) – also known as video management software or video surveillance management system – is an integral component of an organization’s security infrastructure. It enables businesses to capture, record, store, retrieve, view, and analyze video collected from their surveillance cameras.

A VMS is an important tool to have nowadays, as surveillance cameras are now being utilized across many industries. A VMS not only helps organizations manage their surveillance system cameras and keep an eye out for suspicious activity, but also review and analyze their recorded video to uncover valuable insights. For example, retail stores can now utilize video analytics collected through their VMS to track customer behavior, long checkout lines, and dwell time, allowing these stores to improve their customer experience and enhance their bottom line. While video surveillance is still commonly used under circumstances regarding safety, other departments are also beginning to realize its value.

How Does a VMS Work?

A VMS is a software component within a security camera system, commonly used to consolidate disparate pieces of that system (i.e. cameras, encoders, recording systems, storage infrastructure, analytics software) into a single pane of glass. It amalgamates the functionality of several video surveillance tools, into a single, unified solution.

In short,VMS system can access to, capture and collect the video from the network video devices (both live and recorded). It then stores that video to dedicated data storage media (on-premises, external locations, or in the cloud), based on automated policies, pre-determined by the organization. That is how a VMS system work. When an employee needs to access surveillance video, the VMS provides an interface for retrieving and viewing both recorded and live surveillance footage. Some VMS solutions even have the ability to tag surveillance video with metadata, making it fast and easy to retrieve down the line, through intelligent search.

What is Daxun video management system SVMS Pro?

Daxun SVMS Professional is a centralized management software platform provided by Hangzhou Daxun Digital Technology Co.,Ltd for integrating and managing security systems. It captures, collects and manages the video data from front-end 3rd party security devices of different brands, protocols, and types, then stores that video to SVMS server (You can deploy server locally in your company, or the cloud). It provides centralized video monitoring, alarm detection, alarm host, access control, e-map, video wall, face recognition,license plate, AI alarm, and more.

What Are the Benefits of Utilizing a VMS?

Simplicity

A VMS provides a single interface for capturing, storing, and retrieving surveillance video, reducing complexities within an organization’s security infrastructure. It also helps businesses stay inline with compliance and legal requirements, by setting up automatic policies for retaining and storing surveillance video for designated periods of time. If an organization needs to go back and review surveillance footage for legal reasons, their VMS will make sure that footage is still available.

Safety

Video management systems are helpful tools for supporting employee and customer safety. They allow organizations to perform real-time monitoring of the activities occurring within their facilities, including foul play or anything suspicious. Organizations are also able to utilize their VMS to ensure employees are following established safety and security regulations, especially if an accident or injury occurs.

Being able to go back and review past security video footage is a vital tool for organizations under investigation that may be facing legal accusations or workers’ compensation claims. Additionally, organizations within specific industries are often required by law to have surveillance video available for designated periods of time, to meet compliance requirements. A VMS enables them to do so, setting automated policies for retaining and retrieving video.

What Are the Benefits of Utilizing a Daxun video management system SVMS Pro beside above benefits?

Scales as business grows

The SVMS Pro platform adopts component-based, modular design and master-slave open flexible architecture. That is one master control server supports multiple storage or streaming media slave/sub servers.Users can configure multiple streaming media and storage servers according to the requirements of the projects to realize appropriate streaming allocation and reduce the pressure of the master control server.

With the increasing number of requesting video or the more needs for long time storage, users only need to increase the number of streaming media or storage slave/sub servers without change the original deployment, so as to meet the comprehensive requirements for system reliability, scalability,security and load capacity in the actual networking. the platform can be scaled as your business needs evolve. You can expand it from a small 100-channel system to an ulta-large-scale system that links up to 1000,000 channels of equipment.

Simplifies deployment

There is no need to dismantle the original network security system, without changing the original monitoring deployment, the independent network video surveillance systems in various places can be easily managed together with powerful SVMS Pro platform through cascading.

Integrated and open

SVMS Pro offers multiple protocols for third-party development and integration. It allows integration of other systems and device via API, SDK, Onvif, EHOME/ISUP, GA/T1400,GB/T28181 etc;Offers RTSP,RTMP, HTTP-FLV,HLS, REST API,Web Socket etc for the third-party development.

SVMS Pro delivers a number of user benefits. It is intuitive and simple to use, can support thousands of cameras, and is secure and always available. It also utilizes metadata extensively to make videos quickly searchable, and provides insights and associations for additional business value.

How To Manage Multi-Brands Video Devices (such As IP Cameras, NVR) With Your VMS System ?

.

Nowadays to save costs by making full use of old devices while upgrading the old security projects, many integrators or installers prefer to use video management software to manage multiple brands of video devices (such as IP cameras, and NVR), instead of only one single brand. So that they could have more flexible choices to earn profits while saving costs.

.

Multi-brands video device management

On other hand, with market segmentation and specialization, instead of managing the video by themselves, application service providers of different industries prefer video surveillance companies could help them to collect the video from various brands of front-end video devices. Thus they could focus more on application development according to the characteristic of different industries. Therefore to meet the requirements of the surveillance market, how to manage multi-brand video devices has become very important, especially for third-party video management software companies. Then how to manage multi-brands multi-brands video devices (such as IP cameras, and NVR) with your VMS system?

The first step is: integration

Preparing your system for video devices integration

Selecting an open architecture VMS system allows for a deeper, seamless level of integration.

There’s more to integration than just the ability to plug in a video device. Does your VMS allow you to take advantage of the latest IP camera and other video device technologies? Does it support open architecture? Closed architecture systems offer limited integration. Selecting an open architecture VMS system allows for a deeper, seamless level of integration, and allows you to upgrade hardware at your own pace. It also allows you to expand your suite of security solutions in the future, as your needs change.

Choosing a VMS system

And these questions also need to be considered when choosing a suitable VMS system:

■ Does your system support multiple protocols to communicate with video devices?

■ Can your system easily integrate the private SDK provided by the IP camera manufacturer?

Make sure the communication between multi-brand video devices (such as IP cameras, NVR) and your video surveillance VMS system can be put through.

ONVIF,GB/T28181,HLS…

Nowadays most famous overseas video surveillance manufacturers all support the standard protocol ONVIF, which enable VMS system easily to access their video devices (such as IP cameras, and NVR). Some will provide protocols like RTSP, HLS, HTTP-FLV, and Websocket. Some will provide their private protocols like EHOME/ISUP protocol and DHOME. And also GB/T28181, and GA/T1400 protocols are very popular in China.

Simple and easy integration

As for the VMS system, the more protocols it supports, the easier it can put through communication.

As for the VMS system, the more protocols it supports, the easier it can put through communication with the front-end video devices. Thus it will make the whole process of integration simple and easy.

And about video surveillance manufacturers who only can provide SDK, in this way open architecture of VMS system is needed because it can help to put through the communication smoothly.

The second step is management

Since communication between front-end video devices and the VMS system is put through. VMS system can access, capture, and collect the video from the network video devices (both live and recorded). It then stores that video to dedicated data storage media (on-premises, external locations, or in the cloud), based on automated policies, pre-determined by the organization. That is how a VMS system work.

But if the front-end devices are different, they are using a different format, bitrate, and resolution. For example, one brand of IP camera uses H.265, 4K resolution, and the other brand of IP camera use H.264, 1080P. How can a VMS system manage them together?

Video transcoding technology

That requires the VMS system should have efficient video transcoding technology to convert different video formats and resolutions into unified video formats and resolutions, and strong video transmission technology to meet low bandwidth network adaptability.

Smooth streaming automatically adjusts bit-rate and resolution between the VMS system and front-end devices according to real-time network conditions. For example:

The video with a high bitstream can be converted to a low bitstream.

8K,4K,3M,1080P—->D1,CIF,VGA…

Transcode video in different encoding formats to the unified encoding formats.

H.265, MPEG4—->H.264

The third step: output standard video data for the third-party integration

A good VMS system should provide convenient ways for several video processing applications. In interactions applications, particularly in media interchange, a good system should output standardized protocols and stream formats (such as HLS, RTSP, WebSocket, etc) according to the needs of the third party, so that the third party can easily acquire and use video from VMS system for the further application or development.

Middleware for multi-camera video surveillance

—- Enable third party application system quickly to incorporate the visual data as part of their solutions.

.

Each and every user has a unique set of platforms that they need to efficiently run their business. In the security and surveillance field, increasing interest in visual sensor networks drives the development of multi-camera applications in private and public areas. Thus middleware is needed to facilitate video data sharing connections between software platforms. It works like video plumbing, as it connects two ends of software platforms together so video data and databases can be easily passed between the “pipe” for various applications.

.

How does a SVMS Pro middleware for video surveillance work ?

Video retrieval

First the SVMS Pro middleware should work as software platform to receive and collect video from multi-cameras. Thus those features are required for the middleware to work with video that can help user easily add various video sources into the application:

The SVMS Pro middleware platform should support many protocols, such as ONVIF, GB/T28181, GA/T1400 etc. The more protocols it supports, the more cameras it can access. Set ONVIF protocol for example.Nearly 80% famous overseas video surveillance manufacturers in the world all support the standard protocol ONVIF, if the middleware system supports ONVIF, which means it can communicate with above 80% cameras and receive the video from them with no problem.

And also the SVMS Pro middleware platform can be set up to work with an RTSP,HLS,HTTP-FLV, WebSocket video source with an URL – for example, a synthetic video source like VLC stream server, which make the integration process simple and easy.

Video management

Second after collecting the video, SVMS Pro middleware should allows the integrating application to manage video archives from multi-cameras in geographically distributed locations, and realize video management functions, such as video monitoring, local or network or cloud-based storage options, intuitive E-map display, gathering information on remote objects alarms, quick and convenient search and playback etc. After realize video management performance, the middleware has becomes video management middleware. And it should contain a ready video management mechanism available via REST API, while integrating application defines management policy.

Easily integrate with third-party application

Third the SVMS Pro middleware should easily integrate with third-party application, so that video data sharing connections between software platforms can be put through, and the third-party application can easily incorporate video as part of their own video solution.

In order to realize this, the video management middleware is better to designed as an SDK. That is every piece of functionality implemented in middleware is available via programming interface, and the functionality is said to be implemented.

Standard video data for third-party industry platforms

And what’s more, standardized media stream formats such as HTML5 are better to provide for the convenient interaction with third-party applications, particularly in media interchange. So that it will be easily to push the standard video data to many third-party industry application platforms, and make video playback possible on most of popular browsers, and mobile devices.

When you are giving those information to a third party application system, it will be able to acquire the video data and sync information to perform other task via middleware.

What are benefits the video management SVMS Pro middleware brings ?

Enable third party application system quickly to incorporate the visual data as part of their solutions.

As the easy integration features the video management SVMS Pro middleware brings, the third parties don’t need to put more energy on aggregating video sources from multi-cameras and waste more cost on developing. All they need is to enjoy the visual data via convenience and quick integration from the video management middleware, then focus more energy on application-level development while saving developing costs.

Easy deployment and saving cost

With the progress of the security technology, some old security infrastructures need to be upgraded as well, such as community security project, school security projects. If replacing all the front-end cameras, it will cost a lot. The most economical and efficient way is to add new functional cameras at most important monitoring spot, while still keep some old cameras. Thus the video management middleware is needed. Users only need to install middleware software on the computer.

By the video management middleware, users can collect and manage the video resources from various brands front-end video device without replacing the original monitoring equipment and deployment, thus making full use of old devices and greatly reduce the cost of video integration and application.

How the Internet of Things is reshaping video surveillance ?

—- IoT video surveillance: simplify security, prevent loss and create safer environments

.

Nowadays the Internet of Things has become an integral part of business around the world. The enhanced functionality made possible by the Internet of Things (IoT) and associated technologies is responsible for many of the major changes seen across society today. Video surveillance is one area that experiences substantial evolution driven by IoT technology.

The intelligent monitors and sensors of the IoT combined with emerging high-speed network solutions promise to improve the performance and capabilities of video surveillance systems.

At the same time, the video surveillance system also enable the data of IoT applications more intuitive, effective and practical.

.

What Is Internet Of Things (IoT)?

Internet of Things is a number of physical devices connected, working and sharing data in tandem via internet.

How can IoT devices work with video surveillance?

The network video cameras can be connected and worked with any IoT devices such as temperature sensor, humidity sensor, fire detection sensor etc via internet. And all the data from IoT devices can be overlaid on video. See the image captured by IoT video management system SVMS Pro below:

This allows these IoT machines to be “seen” in real time.

However it needs more than just an internet connection. To detect changes of the environment and to mitigate threats like theft, violence, vandalism, fire, intrusion, etc, video cameras must also be able to interpret such incidents effectively. For this, they need to function in tandem with other systems like IoT-based alarm, alarm management system, fire alarm system, motion detection, etc, and trigger various actions, such as audible warning, pop-up video on video wall, email, SMS etc.

While the cameras and sensors sense the undesired conditions in the environment, actuators are responsible for carrying out the actions to bring back the equilibrium. This not only ensures safety from intrusion but a number of other hazards that can possibly happen in that area.

The devices can be trained to detect motion, light, objects, vibrations, change in temperature and moisture levels, smoke and fire, excessive carbon particles in the air, and so on, to ensure the security of the premise in every thinkable way. Not only do these systems provide security, which is the most obvious part of its operations, it gives you workable insights by analyzing data gathered so far, assisting in improving the overall performance of the enterprise.

Set IoT based alarm for example, users can set temperature alarm threshold, when the environment temperature arrives at certain alarm threshold, it will trigger actions to let user know what is happening. See the image below:

With real-time remote monitoring and quickly detect changes in environment, users can adjust the facility’s condition and avoid any loss due to environmental changes, such as avoiding spoiling stock.

That’s how Internet of Things has diversified the benefits of a video surveillance system.

And at the same time video surveillance system make everything of IoT to be seen intuitively. Intelligent video surveillance systems can easily search IoT device data to identify environment changes, and easily found location of different IoT devices and its corresponding videos on map. Automated analysis of current conditions provided by IoT system can generate real-time insight enabling a rapid response to incidents which make the whole system more effectively and practically. Using the raw material provided by video feeds, predictive analytics can alert organizations to potential issues so they can proactively mitigate risks before they become problematic.

That is how this enhanced IoT video surveillance system enables network cameras to be interoperable and function effectively with IP-based IoT systems to create a wholesome ecosystem of Smart Safety.

What are the benefits of this enhanced IoT video surveillance system bring ?

It can prevent disasters and ensure facility safety.

■ With real-time remote monitoring and control, facility managers can know and adjust the facility’s condition.

■ Track stock as it moves through the facility.

■ Consistently monitor the facility conditions and quickly detect changes in the environment to avoid spoiling stock.

■ Act quickly on security alerts without the need to review footage.

It can avoid unnecessary intervention for false alarms.

IoT video surveillance systems can help facility managers determine if an alarm has been triggered by an accident or threat without law enforcement or an in-person inspection.

It protects critical assets from loss.

Safety and and security issues can be costly. Real-time alerts and comprehensive visibility help business owners and facility managers identify risks.

It makes informed decisions to improve processes.

Business owners and managers can improve security processes by collecting and analyzing data from connected devices.

.

<p>The post SVMS Professional Full Guide first appeared on NVR IPCAMERA SECURITY.</p>