How to determine the exact amount of alarm points you'll need to monitor at your remote site
At first glance, a survey of your remote site might show that you need to monitor a few basic environmental alarms or a few pieces of equipment. So you may think that you're looking for a system that can monitor 6 alarm points. But is that enough?
Let's examine elements of remote sites that require monitoring. Identifying these elements will help you plan your remote site monitoring needs.
Contact closures are known as alarm inputs, discrete alarms, or digital inputs. Discrete alarm points are those which can be measured in terms of "On/Off", "Opened/Closed" or "Yes/No".
Here are items that are commonly monitored as discrete alarms:Intrusion Alarms: Intrusion alarms monitor whether doors, windows, and other access points are open or closed. More advanced monitoring systems will also allow you to control door access to your remote sites. For example, some systems allow you to determine who, when, and which door can be entered. Structure Beacons: If your remote site has lights that warn aircraft of its presence, than you'll definitely want to make sure you have these monitored with an automated system. The FCC and FAA have plenty of rules and regulations regarding tower light monitoring that you should be aware of. Equipment Failure: Many network elements have some type of contact closure that will indicate what state the device is in (critical, major, minor). Obviously, this varies greatly from vendor to vendor. With the right remote monitoring system, you can assign text descriptions to these alarms that coincide with the equipment vendor's definitions. Monitoring your multi-vendor equipment using a single interface is sure to make everyone's job a little easier while increasing your network visibility. Environmental Alarms: These can often be the most critical alarms in the building. The top two discrete environmental alarms that are monitored are flooding and fire detection. Many remote site operators enhance their visibility by adding a site camera to their monitoring system. There's nothing quite like visual confirmation before resources are directed to a problem that ends up being a faulty sensor.
Analog alarm inputs typically measure a range of values, unlike on/off discrete alarms. A common example of an analog application is the measurement of temperature.
If you have analog alarm values to measure, you need to define the thresholds at which your monitoring system will take action.
For example, suppose you are measuring the temperature of a remote site. Building temperatures range from 10 to 120 degrees Fahrenheit. Under normal conditions, the building's heating and cooling system will keep the temperature within an acceptable range. To take advantage of multiple analog values, you might set up 4 different threshold values like below:
- When the temperature is below 30 degrees, page a technician and notify the Network Operations Center (NOC). A value this low might indicate that the heater is not working at all.
- When the temperature is below 50 degrees, notify the NOC. This may indicate that the heater is not functioning properly.
- When the temperature is above 80 degrees, notify the NOC. This may indicate that the air conditioning unit is not functioning properly.
- When the temperature is above 100 degrees, page a technician, notify the NOC, and open a vent (via derived controls). This may indicate that the air conditioning unit is not functioning at all.
*Note: To gain this level of detailed visibility, be sure to look for a monitoring system that can accept at least four separate analog threshold values.
You may have devices such as PBXs, routers, and switches at your remote site that need provisioning. Normally, this would involve driving to the sight, setting up a laptop, and creating a terminal session through the device's "Craft Port" (typically a serial port-"craft" is a reference to the craft personnel who work with telemetry devices).
You may also need to manage streaming ASCII data from one of these devices. Often, ASCII data is sent to a serial printer port either to be printed or captured into a database.
In both of these cases, a remote solution is ideal. Make sure that if you do have such devices and applications, you look for the following features in a remote monitoring system:
- It should function as a pass-through terminal server that gives access to remote craft ports. Be sure to consider how many ports you are going to need access to when selecting your monitoring solution and allow for expansion.
- It should have multiple access methods (for example, LAN and dial-up). It is best practice to have a secondary connection in case the primary connection should fail.
- It should be able to serve as a proxy to other network elements in order to capture ASCII data.
*Note: Be sure to allow some room for expansion. Once you discover the advantages of a remote terminal server, you're sure to find more applications, which will require more serial ports.
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