Abstract: A controller (100) for a vehicle (1), the vehicle comprising: a powertrain (1P) comprising an electric machine (50) for providing motive power; cooling means (60, 80); and electrical energy storage means (70) for powering the electric machine (50), wherein the cooling means (60, 80) is configured to cool the electrical energy storage means (70) and a cabin (1C) of the vehicle and the vehicle (1) is configured to operate in a first or second driving mode, the controller (100) comprising: an input for receiving information indicative of a temperature of the energy storage means (70); and a processor arranged to generate a control signal in dependence on the information indicative of temperature of the energy storage means (70) and information indicative of the selected driving mode of the vehicle, wherein: if the vehicle is in the first driving mode the processor is configured to generate the control signal to limit or reduce an amount of power consumed by the powertrain (1P) in dependence on the information

Abstract: The present disclosure relates to a method of generating a target operational speed band (53; 63; 67) for a host vehicle (1) travelling along a route. A first time-dependent obstacle (15-n, 18-n) is identified at a first location on the route. The first time-dependent obstacle (15-n, 18-n) is identified as hindering progress of the host vehicle (1) during a first time period (11). The first time-lin dependent obstacle (15-n, 18-n) is defined in a two-dimensional speed against distance map (50, 60). A first speed trajectory (51, 52; 61; 65, 66) is determined from a first point to a second point within the two-dimensional speed against distance map (50, 60). The second point represents the first location on the route and the determined first speed trajectory (51, 52; 61; 65, 66) represents the host vehicle (1) arriving at the first location at a first arrival time.

Abstract: A method of performing diagnostics in a hierarchical diagnostics electrical architecture of a vehicle, the vehicle comprising a plurality of on-board computing devices for hosting the hierarchical diagnostics electrical architecture. The hierarchical diagnostics electrical architecture comprising: a component diagnostic layer having a plurality of electronic control units each comprising a diagnostics server module; and at least one supervisory diagnostic layer.

Abstract: Aspects of the present invention relate to an imaging system (1) for a towing vehicle (V1). The imaging system (1) includes a processor configured to determine a reference speed (Vref) of the towing vehicle (V1). First image data (D1) is received from a first imaging device (C1); and second image data (D2) is received from a second imaging device (C2). The first imaging device (C1) may be disposed on the towing vehicle (V1); and the second imaging device (C2) may be disposed on a towed vehicle (V2). A first scaling factor (SF1, SF2) is applied to the second image data (D2) to generate scaled second image data (D2). The first scaling factor (SF1, SF2) is determined in dependence on the determined reference speed (Vref) of the towing vehicle (V1). Composite image data (D3) is generated by combining at least a part of the scaled second image data (D2) with at least a part of the first image data (D1). The composite image data (D3) is output for display on a display screen (10).

Abstract: A controller for a vehicle is configured to determine the position of the accelerator pedal with respect to a reference accelerator pedal position (aref); and either determine a torque output in dependence on an acceleration pedal map if the position of the accelerator pedal is greater than the reference accelerator pedal position (aref); and, determine a torque output in dependence on a deceleration pedal map if the position of the accelerator pedal is less than the reference accelerator pedal position (aref).