This paper describes the implementation of a movement control method for lower limb exoskeletons with single-joint actuation. In such applications, the single-joint must coordinate movement with other non-controlled joints. The authors have previously proposed a multi-joint control method called a flow controller, which provides several desirable characteristics for such assistance. In this paper, the authors adapt the fundamentally multi-joint flow control approach to a system with a single actuated joint, but with multiple movement degrees of freedom. The single degree of actuation flow control method was implemented on a representative system, specifically a knee exoskeleton that coordinates assistance with ipsilateral thigh movement during walking. The ability of the controller and knee exoskeleton to appropriately influence knee movement was evaluated in level walking experiments on three subjects with unilateral lower-limb impairment. Results show the device and controller provide improvements in knee movement in all subjects. Subjective feedback from the subjects indicates a high level of comfort with the controller.