Vehicle tire monitoring system

What is claimed is: 1. A vehicle tire monitoring system, comprising: a vehicle body structure; a vehicle tire rotatably attached to the vehicle body structure; a valve stem attached to the vehicle tire; a rotation sensor configured to receive rotation data corresponding to rotation of the valve stem; an input device configured to receive a request to orient the valve stem to a predetermined angular orientation; a signaling device configured to provide a signal to at least one of a vehicle passenger and a vehicle operator; and an electronic controller installed within the vehicle body structure and in electronic communication with the rotation sensor, the input device and the signaling device, the electronic controller being configured to: in response to the input device receiving the request to orient the valve stem to the predetermined angular orientation and determining that the valve stem is not currently in the predetermined angular orientation, the electronic controller operates the signaling device to provide a first signal to at least one of the vehicle passenger and the vehicle operator, and in response to the input device receiving the request to orient the valve stem to the predetermined angular orientation and determining that the valve stem is currently in the predetermined angular orientation, the electronic controller operates the signaling device to provide a second signal to at least one of the vehicle passenger and the vehicle operator. 2. The vehicle tire monitoring system according to claim 1 , wherein the valve stem has a tire pressure sensor and is installed to the vehicle tire for rotation therewith, the electronic controller being in electronic communication with the tire pressure sensor. 3. The vehicle tire monitoring system according to claim 2 , wherein the electronic controller is further configured such that in response to determining that current tire pressure is below a predetermined value, the electronic controller operates the input device informing one of the vehicle operator and the vehicle passenger of a low tire pressure condition. 4. The vehicle tire monitoring system according to claim 3 , wherein the electronic controller is further configured such that in response to determining that addition of air to the vehicle tire has raised to the current tire pressure to a level that is at or above the predetermined value, the electronic controller operates the signaling device to provide a third signal to at least one of the vehicle passenger and the vehicle operator. 5. The vehicle tire monitoring system according to claim 2 , wherein the electronic controller is further configured such that in response to determining that addition of air to the vehicle tire has raised current tire pressure to a level that is at or above a predetermined value, the electronic controller operates the signaling device to provide a third signal to at least one of the vehicle passenger and the vehicle operator. 6. The vehicle tire monitoring system according to claim 2 , wherein the valve stem has a first end located outside the vehicle tire and a second end located inside the vehicle tire, with the tire pressure sensor located at the second end of the valve stem. 7. The vehicle tire monitoring system according to claim 1 , wherein the vehicle body structure includes a speed sensor rotor with the vehicle tire being connected to the speed sensor rotor for rotation therewith, and the rotation sensor is configured to monitor movement of the speed sensor rotor and the vehicle tire. 8. The vehicle tire monitoring system according to claim 7 , wherein the speed sensor rotor and the rotation sensor are part of an anti-lock braking system. 9. The vehicle tire monitoring system according to claim 1 , wherein the predetermined angular orientation of the valve stem is defined as being plus or minus 10 degrees an upper most orientation of the valve stem relative to rotation of the vehicle tire. 10. The vehicle tire monitoring system according to claim 9 , wherein the predetermined angular orientation of the valve stem is defined as the upper most orientation of the valve stem relative to rotation of the vehicle tire. 11. The vehicle tire monitoring system according to claim 1 , wherein the signaling device is one or more of the following: a vehicle horn, vehicle headlights, a vehicle buzzer, an indicator on an instrument panel within the vehicle body structure, a display of the instrument panel; a bell within the vehicle body structure, a chime, a keyfob coordinated for use with the electronic controller, a mobile tablet and a mobile phone. 12. The vehicle tire monitoring system according to claim 1 , wherein the input device is any one of the following: a display of an instrument panel within the vehicle body structure, a mobile tablet and a mobile phone. 13. The vehicle tire monitoring system according to claim 1 , wherein the vehicle tire includes a plurality of vehicle tires rotatably attached to the vehicle body structure, each of the plurality of vehicle tires including a corresponding valve stem and tire pressure sensor, the rotation sensor being configured to receive corresponding tire pressure data from each of the tire pressure sensors, and the rotation sensor includes a plurality of rotation sensors, each of the plurality of the plurality of rotation sensors being located adjacent to a corresponding one of the plurality of vehicle tires. 14. The vehicle tire monitoring system according to claim 1 , wherein the rotation sensor is located at an exterior portion of the vehicle body structure and is configured to transmit the rotation data to the electronic controller via radio transmissions. 15. A method of monitoring vehicle tire pressure, the method comprising: providing a vehicle body structure with at least one vehicle tire rotatably attached thereto; providing the at least one vehicle tire with a valve stem having a tire pressure sensor; providing a fixed sensor mounted to the vehicle body structure, the fixed sensor receiving tire pressure data from the tire pressure sensor; mounting a rotation sensor to the vehicle body structure proximate the at least one vehicle tire; providing an input device configured to receive a request to orient the valve stem to a predetermined angular orientation; providing a signaling device configured to provide a signal to at least one of a vehicle passenger and a vehicle operator; providing the vehicle body structure with an electronic controller, the electronic controller being in electronic communication with the fixed sensor, the rotation sensor, the signaling device and the input device; the electronic controller operating the input device informing one of the vehicle operator and the vehicle passenger of a low tire pressure condition in response to determining that current tire pressure of the at least one vehicle tire is below a predetermined value; the electronic controller operating the signaling device to provide a first signal to at least one of the vehicle passenger and the vehicle operator in response to the request to orient the valve stem to a predetermined angular orientation, inputted to the input device to orient the valve stem to the predetermined angular orientation, and determining that the valve stem is not currently in the predetermined angular orientation, and the electronic controller operating the signaling device to provide a second signal to at least one of the vehicle passenger and the vehicle operator in response to receiving the request to orient the valve stem to the predetermined angular ori