Many companies, municipalities, and local governments must employ a significant amount of workers to monitor and maintain equipment that may operate at distant locations relative to the operations center of a company, municipality, or local government. For example, utility companies such as electric companies must employ workers to go out and to collect data from electric meters so that an electric company can accurately measure consumption by its customers for billing purposes. Often, electric company workers go out in to the field and must physically read analog or digital meters to collect data on electricity consumption by a customer.
In other cases, utility meters, such as electric meters, can be provided with low power radios that can be interrogated with hand held or vehicle-mounted reading units. In such cases, workers with these hand held or vehicle-mounted reading units must be in close proximity relative to the low power radios in order to interrogate the low power radios and to collect that data from a meter. While the low power radios on the meters increase the speed and accuracy in which data can be collected by a worker, this conventional solution still requires a worker to position himself or herself in the field in close physical proximity to the meters, usually within the range of fifty feet to any particular meter. Often, because the low power radios are required by the Federal Communications Commission (FCC) to operate with such low power and because the meters are often obstructed by buildings and other physical objects, it is necessary for the worker to establish a line-of-sight coupling with the low power radio to interrogate and read it.
Another problem faced by utility companies, such as electric companies, is the monitoring and control of residential equipment such as air conditioners. According to some conventional programs, customers of electric companies may voluntarily relinquish control of their air conditioning unit so that the electric company can turn a particular customer's air conditioning unit on or off depending upon peak power loads monitored by the electric company. Many electric companies use existing power lines as the communications medium for controlling the operation of such air conditioning units. There are problems associated with using existing power lines as the communications medium for controlling air conditioning units. On such problem is the amount of hardware and its associated costs to support this type of communications medium that uses power lines. Also, reliability of power line carriers (PLCs) is usually low because PLCs are more susceptible to noisy, electromagnetic environments compared to other communication mediums, such as over-the-air radio frequency communications.
In addition to the problems faced by utility companies with controlling residential equipment from a distance and using workers to acquire data from meters, there are other problems associated with other types of equipment that may be remotely located relative to the organization that controls and maintains the equipment. For example, municipalities usually need to employ workers that monitor and maintain parking meters. A worker is needed to collect any money received by a meter and to verify that a parking meter is working properly. If information is collected by the parking meter, such as number of vehicles parked in space per day/hour or if a vehicle is present in proximity to the meter, then such information would also need to be collected by the human worker during his or her survey of the meters.
For other equipment, such as traffic control devices, municipalities often employ workers to perform routine checks on equipment for malfunctions and for increasing operation efficiency of the equipment. As one example, municipalities and local governments employ staff to maintain and monitor traffic lights. Usually, such staff must observe operations of traffic lights first hand in order to optimize performance and detect any malfunctions of the traffic lights. Also, staff usually must observe traffic patterns first hand in order to set the timing of the traffic lights.
As another example, municipalities and/or companies also employ staff to monitor and maintain automated barriers and gates to railroad crossings and draw bridges. Usually, automated barriers and gates do not have a way to communicate their operation and any environmental conditions, such as weather and traffic flow, back to a central location.
Accordingly, there is a need in the art for a method and system that can collect information from and provide control to remote field devices relative to a central location. There is a further need in the art for a method and system that can establish communications with a remote field device without using significant communications hardware, such as wires, cables, and/or new radio equipment.