Embodiments of the invention provide a customizable bicycle saddle for a bicycle. The bicycle saddle has been designed to allow it to be adjusted to match the ischial tuberosities of each rider's pelvis in order to minimize the pressure placed on other portions of the rider's body while seated on the bicycle. The bicycle saddle comprises a first seating portion that has been configured to allow a rider to sit on the bicycle, a second seating portion that has been configured to allow the rider to sit on the bicycle. The bicycle saddle also includes a first adjustment means configured to allow the first seating portion to be moved closer to the second seating portion, and a second adjustment means configured to allow the saddle to be moved closer to a forward portion on the bicycle.

A modular cargo system for an off-road vehicle includes a triangular center case between a right side case and a left side case, each having a base attached downwardly to a platform on the vehicle while also defining a floor plane for resting on a flat floor surface. The side cases include non-parallel side walls, each defining an interior space large enough to hold a rider's helmet. Each case includes a handle on a hinged lid, enabling the side case to be carried with a single hand while the lid is closed. The hinge is on a leading side wall of the cases, latched on a trailing side wall of the cases, and clips to hold the side cases downward to the platform are on the trailing side walls.

An off-road vehicle includes a frame and an operator seat coupled to the frame. The off-road vehicle further includes a battery and a wire harness assembly having a plurality of conductive elements to deliver power from the battery to one or more components located rearward from the operator seat. A second rider seat is positioned rearward of the operator seat. The second rider seat includes a base housing and an electrical socket. The electrical socket is configured to deliver power to the one or more components located rearward from the operator seat.

An off-road vehicle includes a frame and an operator seat coupled to the frame. The off-road vehicle further includes a battery and a wire harness assembly having a plurality of conductive elements to deliver power from the battery to one or more components located rearward from the operator seat. A second rider seat is positioned rearward of the operator seat. The second rider seat includes a base housing and an electrical socket. The electrical socket is configured to deliver power to the one or more components located rearward from the operator seat.

The Dual-Energy Bicycle is the only product of its kind that can be altered to be used in three different and unique ways to train all regions of the body. In addition to these three operating modes, this unprecedented bike is uniquely designed with an adjustable primary seat, an adjustable chest support, and a greater front wheel angle. Furthermore, the Dual-Energy Bicycle is carefully crafted with durable materials to ensure long term sustainability and complete functionality based on consumer preferred use and/or based on the terrain being explored.

Various systems and methods associated with protecting a rider of an electric bicycle from hazards while riding their bicycle are described. In some embodiments, the systems and methods enhance the safety of the rider in response current detected conditions surrounding the rider, such as conditions associated with the route or path traveled by the rider, other vehicles within the route or path traveled by the rider, potential hazards within the route or path traveled by the rider, environmental conditions through which the rider is traveling, and so on.

Various systems and methods associated with protecting a rider of an electric bicycle from hazards while riding their bicycle are described. In some embodiments, the systems and methods enhance the safety of the rider in response current detected conditions surrounding the rider, such as conditions associated with the route or path traveled by the rider, other vehicles within the route or path traveled by the rider, potential hazards within the route or path traveled by the rider, environmental conditions through which the rider is traveling, and so on.

Various systems and methods associated with protecting a rider of an electric bicycle from hazards while riding their bicycle are described. In some embodiments, the systems and methods enhance the safety of the rider in response current detected conditions surrounding the rider, such as conditions associated with the route or path traveled by the rider, other vehicles within the route or path traveled by the rider, potential hazards within the route or path traveled by the rider, environmental conditions through which the rider is traveling, and so on.

Various systems and methods associated with protecting a rider of an electric bicycle from hazards while riding their bicycle are described. In some embodiments, the systems and methods enhance the safety of the rider in response current detected conditions surrounding the rider, such as conditions associated with the route or path traveled by the rider, other vehicles within the route or path traveled by the rider, potential hazards within the route or path traveled by the rider, environmental conditions through which the rider is traveling, and so on.

Various systems and methods associated with protecting a rider of an electric bicycle from hazards while riding their bicycle are described. In some embodiments, the systems and methods enhance the safety of the rider in response current detected conditions surrounding the rider, such as conditions associated with the route or path traveled by the rider, other vehicles within the route or path traveled by the rider, potential hazards within the route or path traveled by the rider, environmental conditions through which the rider is traveling, and so on.