Exoskeletons for running and walking

What is claimed is: 1. An exoskeleton worn by a human user, comprising, in combination: a pelvic harness adapted to be worn about a waist of the user; a load bearing exoskeleton leg structure adapted to extend along the side of the leg of the human user and including a thigh member adapted to be positioned to the side of a thigh of the human user, a shin member adapted to be positioned to the side of a shin of the human user, and a knee joint joining the thigh member and the shin member and adapted to be positioned to the side of the knee of the human user, the thigh member comprising a bearing housing component and a shaft component, the bearing housing component and the shaft component collectively adapted to extend downwardly alongside the leg of the human user, and wherein the bearing housing and shaft components are configured such that a length of the exoskeleton leg structure is determined by the position of the exoskeleton leg structure in a coronal plane of the human user, the position of the exoskeleton leg structure thereby defining a set of lengths, and wherein the length of the exoskeleton leg structure is automatically adjusted among the lengths of the set of lengths during abduction and adduction of the exoskeleton leg structure in the coronal plane of the human user to compensate for variations between a length of the human user's leg and the length of the exoskeleton leg structure resulting from dissimilar centers of rotation between the human user's leg and the exoskeleton leg structure, there being a unique leg length of the exoskeleton leg structure for a given leg abduction angle of the exoskeleton leg structure; a hip joint at the pelvic harness linking the exoskeleton thigh member at the bearing housing component to the pelvic harness; a thigh cuff attached to the exoskeleton leg structure at the thigh member distal to the pelvic harness, the thigh cuff being adapted to be attached to the thigh of the human user; a foot member adapted to be attached to a shoe worn by the human user; an ankle joint joining the shin member to the foot member and adapted to be positioned to the side of the ankle of the human user; a passive spring or an active actuator coupled at the hip joint between the thigh member and the pelvic harness to apply a motive force for rotating the thigh member with respect to the pelvic harness to assist in lifting the exoskeleton and the human user with respect to a ground surface upon which the user is walking and to propel the exoskeleton and human user forward; a controllable damper operatively connected to the knee joint for arresting the relative movement of the shin member and the thigh member at controllable times; and a spring located in the foot member or the ankle joint for storing and releasing energy during walking. 2. An exoskeleton as set forth in claim 1 , wherein a length of the shin member is adjustable to accommodate human users of different sizes. 3. An exoskeleton as set forth in claim 2 , wherein a length of the thigh member is adjustable to accommodate human users of different sizes. 4. An exoskeleton as set forth in claim 1 , wherein the pelvic harness is attached to a load-carrying backpack adapted to be worn on a back of the human user, the backpack being supported on the ground surface by the exoskeleton leg structure. 5. An exoskeleton as set forth in claim 1 , wherein the pelvic harness is attached to a seat adapted to support the human user so that a significant part of a weight of the human user is born by the exoskeleton leg structure. 6. The exoskeleton of claim 1 , further including a cam-roller mechanism coupling the pelvic harness, the bearing housing component and the shaft component, the cam-roller mechanism having one degree of freedom, so that for a given leg abduction angle, there is a unique leg length of the exoskeleton leg structure. 7. An exoskeleton worn by a human user, comprising: a) a pelvic harness adapted to be worn about a waist of the user; b) a load bearing exoskeleton leg structure adapted to extend along the side of the leg of the human user and including a thigh member adapted to be positioned to the side of a thigh of the human user, a shin member adapted to be positioned to the side of a shin of the human user, and a knee joint joining the thigh member and the shin member and adapted to be positioned to the side of the knee of the human user, the thigh member comprising; i) a bearing housing component, and ii) a shaft component, wherein the bearing housing component and the shaft component are collectively adapted to extend downward alongside the leg of the human user, and wherein the bearing housing and shaft components are configured such that a length of the exoskeleton leg structure is determined by the position of the exoskeleton leg structure in a coronal plane of the human user to form a set of lengths of the exoskeleton leg structure, and is automatically adjusted among the lengths of the set of lengths during abduction and adduction of the structure in the coronal plane of the human user to compensate for variations between a length of the human user's leg and the length of the exoskeleton leg structure resulting from dissimilar centers of rotation between the human user's leg and the exoskeleton leg structure, there being a unique leg length of the exoskeleton leg structure for a given leg abduction angle of the exoskeleton leg structure; c) a hip joint at the pelvic harness linking the exoskeleton thigh member at the bearing housing component to the pelvic harness; and d) a thigh cuff attached to the thigh member distal to the pelvic harness, the thigh cuff being adapted to be attached to the thigh of the human user. 8. The exoskeleton of claim 7 , further including a cam-roller mechanism coupling the pelvic harness, the bearing housing component and the shaft component, the cam-roller mechanism having one degree of freedom, so that for a given leg abduction angle of the exoskeleton leg structure, there is a unique leg length of the exoskeleton leg structure.