Chapter 3 Configuring and Managing the IP Camera

Feature Setup Windows

Table 3-7

Event Notification Window Options (continued)

 

 

 

Option

 

Description

 

 

 

Password

 

Enter the primary FTP server login password.

 

 

Enable Passive Mode

Check this check box to enable the passive mode feature of the primary FTP

 

 

server.

 

 

Secondary FTP Server

Identify an optional secondary FTP server to which snapshots or video clips

 

 

are uploaded by choosing IP Address or Hostname from the drop-down list

 

 

and entering the IP address or host name in the corresponding field.

 

 

Secondary FTP Port

Enter the port number that receives messages on the secondary FTP server.

 

 

The default FTP port number is 21.

 

 

 

User Name

 

Enter the secondary FTP server login user name.

 

 

 

Password

 

Enter the secondary FTP server login password.

 

 

Enable Passive Mode

Check this check box to enable the passive mode feature of the secondary

 

 

FTP server.

 

 

Upload Snapshot

Check this check box to upload a snapshot of the activity that triggered the

 

 

event.

 

 

This functionality is available only when the secondary video stream is

 

 

enabled.

 

 

Upload Video Clip

Check this check box and enter the following values to upload a video clip

 

 

of the activity that triggered the event:

 

 

Pre-CaptureLength—Enter the amount of video (in seconds) before

 

 

the event to include in the video clip. The default pre-capture length is

 

 

0 seconds (no pre-capture video).

 

 

Post-CaptureLength—Enter the amount of video (in seconds) after the

 

 

event to include in the video clip. The default post-capture length is 5

 

 

seconds.

 

 

 

Patrol Sequence Window

The Patrol Sequence window provides options for configuring a patrol sequence for the IP camera. A patrol sequence consists of up to eight steps, each of which causes the camera to move to a designated preset position and remain in the position for a designated time.

When you create a patrol sequence, you define the order of the steps. When the patrol sequence runs, the IP camera goes to the preset position that is defined by the first step, then moves through each preset position in the configured order. It stops at the preset position that is defined by the last step.

Before you can configure a patrol sequence, you must define preset positions as described in the “Presets controls” rows in Table 4-1. These rows also explain how to start and stop the execution of a patrol sequence.

To display the Patrol Sequence window, access the configuration windows as described in the “Performing the Initial Setup of the IP Camera” section on page 2-5, click Feature Setup, then click Patrol Sequence.

If you change any options in this window, you must click the Save Settings button to save the change. If you do not click this button, changes are not retained when you exit the window. Save Settings appears at the bottom of the window. You may need to scroll down to it.

 

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Cisco Systems 4300E manual Patrol Sequence Window

4300E specifications

The Cisco Systems 4300E Series is an advanced integrated service router designed to deliver high-performance, scalable, and secure networking solutions for enterprises. This versatile platform caters to a wide range of applications while ensuring reliability and flexibility in dynamic environments.

One of the standout features of the Cisco 4300E is its modular architecture, which allows organizations to tailor the router to their specific needs by adding or changing modules. This modularity is crucial for enterprises that require agility to adapt to evolving network demands. The router supports various network interface modules (NIMs), service modules (SMs), and high-speed WAN interface cards (HWICs), enabling seamless integration of various interfaces and features.

The Cisco 4300E is designed with performance in mind, capable of delivering high throughput and low latency, which is essential for applications such as voice, video, and data traffic. It supports robust performance with the capability of handling up to 2 Gbps of throughput, making it suitable for mid-sized to large enterprise branch offices.

Another key technology associated with the 4300E is Cisco’s Unified Communications and Collaboration suite. This integration facilitates voice, video, and messaging services across the network, ensuring efficient communication within organizations. Security features include advanced threat protection through Cisco’s integrated security services, such as firewall capabilities, VPN support, and intrusion prevention, ensuring that sensitive data remains secure.

The Cisco 4300E also supports Cisco’s DNA (Digital Network Architecture) capabilities, allowing for automation, analytics, and enhanced network visibility. This integration empowers network administrators to manage their infrastructure proactively, ensuring optimal performance and quick resolution of issues.

Additionally, the router is equipped with enhanced Quality of Service (QoS) capabilities, enabling prioritization of critical applications and traffic types. This feature is vital for maintaining high performance across diverse application requirements.

In conclusion, the Cisco 4300E Series routers stand out for their modular architecture, high performance, integrated security, and support for advanced networking technologies. These characteristics make them ideal for enterprises seeking a robust, flexible, and secure solution to meet their networking needs in an ever-evolving digital landscape. With the ability to seamlessly integrate various services and applications, the 4300E is a reliable choice for any organization looking to future-proof its network infrastructure.