Total task vehicle

What is claimed is: 1. A vehicle, comprising: a frame; an electric motor coupled to the frame and configured to selectively receive power from at least one battery pack and operable in a first operation mode and a second operation mode that is different from the first operation mode; a wheel assembly coupled to the frame and driven by the motor; and a control device operable by a user to control operation of the vehicle, wherein the control device is moveable between a first position relative to the frame corresponding to a riding configuration in which a user is able to operate the control device while seated on a seat on the frame, and a second position relative to the frame corresponding to a walking configuration in which a user is able to operate the control device while walking adjacent the vehicle, wherein movement of the control device from the second position to the first position triggers conversion from operation of the motor in the second operation mode to operation of the motor in the first operation mode, and wherein movement of the control device from the first position to the second position triggers conversion from operation of the motor in the first operation mode to operation of the motor in the second operation mode. 2. The vehicle of claim 1 , wherein the motor is configured to operate in accordance with a first operating profile in the first operation mode, and in accordance with a second operating profile in the second operation mode, and wherein a detected movement of the control device from the second position to the first position triggers a change in the operating profile of the motor, from the second operating profile to the first operating profile; and a detected movement of the control device from the first position to the second position triggers a change in the operating profile of the motor, from the first operating profile to the second operating profile. 3. The vehicle of claim 2 , wherein operation in accordance with the first operating profile causes the motor to operate in one of a high speed/low torque mode, a high speed/high torque mode, a low speed/low torque mode, or a low speed/high torque mode, and operation in accordance with the second operating profile causes the motor to operate in one of a low speed/high torque mode, or a low speed/low torque mode. 4. The vehicle of claim 1 , wherein, in the first operation mode, the motor is configured to operate in one of a high speed/low torque mode, a high speed/high torque mode, a low speed/low torque mode, or a low speed/high torque mode, in response to a user input received at a control panel of the control device. 5. The vehicle of claim 1 , wherein, in the second operation mode, the motor is configured to operate in one of a low speed/high torque mode, or a low speed/low torque mode, in response to a user input received at a control panel of the control device. 6. The vehicle of claim 1 , wherein the wheel assembly includes a first wheel assembly coupled to a first end portion of the frame, the first wheel assembly including a first wheel at a first end portion of a first axle and a second wheel at a second end portion of the first axle; and a second wheel assembly coupled to a second end portion of the frame and driven in response to a force generated by the motor, the second wheel assembly including a third wheel mounted on a second axle, the third wheel being driven in response to the force generated by the motor, and wherein, in the riding configuration, the user is seated on the seat between the first wheel assembly and the second wheel assembly, and in the walking configuration, the user is positioned adjacent to the first wheel assembly to steer the vehicle from a position outside the frame. 7. The vehicle of claim 1 , wherein the at least one battery pack includes a plurality of high power density (HD) battery packs configured to output 240V DC to 380V DC power to the electric motor, and to simultaneously output 240V DC to 380V DC power to one or more powered attachment ports provided on the frame based on detection of a powered piece of accessory equipment coupled to the one or more powered attachment ports. 8. The vehicle of claim 7 , further comprising a plurality of power sockets on the plurality of HD battery packs, wherein the plurality of HD battery packs are configured to output AC power to the one or more power sockets, and to simultaneously output DC power to the electric motor or to the one or more powered attachment ports. 9. The vehicle of claim 1 , further comprising: a plurality of powered attachment ports provided on the frame, wherein each of the plurality of powered attachment ports is configured be mechanically and electrically coupled with one or more pieces of accessory equipment, and each of the plurality of powered attachment ports is configured to selectively receive power from the at least one battery pack, wherein in the first operating mode, a first piece of accessory equipment may be coupled to a first attachment port of the plurality of powered attachment ports at a first end portion of the frame to receive power from the at least one battery pack and to be operable in response to user inputs received at the control device; and in the second operating mode, a second piece of accessory equipment may be coupled to a second attachment port of the plurality of powered attachment ports at a second end portion of the frame to receive power from the at least one battery pack and to be operable in response to user inputs received at the control device. 10. The vehicle of claim 1 , wherein the first wheel assembly includes a first wheel at a first end portion of a first axle and a second wheel at a second end portion of the first axle, and the second wheel assembly includes a third wheel mounted on a second axle, the third wheel being driven in response to the force generated by the motor, and Wherein the frame, first wheel assembly and the second wheel assembly define a three-wheeled cantilevered suspension system, and in the seating configuration, the seat and the control device are positioned such that the first wheel assembly is located at a forward oriented portion of the frame, and the second wheel assembly located at an aft oriented portion of the frame. 11. The vehicle of claim 1 , wherein the control device includes: a steering column for steering the wheel assembly, the steering column having a first end portion thereof that is movably coupled to the frame; a control panel at a second end portion of the steering column; and a plurality of manipulation devices provided on the control panel, the plurality of manipulation devices being operable by the user for controlling operation of the vehicle. 12. The vehicle of claim 11 , wherein the plurality of manipulation devices includes at least one of a power switch, a throttle actuator, a brake actuator, an attachment control input, and a mode selection input. 13. A vehicle comprising: a frame; a drive system, including an electric motor powered by at least one battery pack and operable in a first operation mode and a second operation mode that is different from the first operation mode, and a wheel assembly driven by the motor, the wheel assembly including a first wheel assembly coupled to a first end portion of the frame and a second wheel assembly coupled to a second end portion of the frame; and a control device being operable by a user for controlling operation of the vehicle, wherein the control device is moveable between a first position in a region between the first wheel assembly and the second wheel assembly and a second position outside the region between the f