| Q27315158 | A Critical Characteristic in the Transverse Galloping Pattern |
| Q33346732 | A Mechanical Trigger for the Trot-Gallop Transition in Horses |
| Q30849423 | A Quadruped Robot Exhibiting Spontaneous Gait Transitions from Walking to Trotting to Galloping |
| Q58649329 | A Review of Gait Optimization Based on Evolutionary Computation |
| Q35185421 | A collisional perspective on quadrupedal gait dynamics |
| Q52838853 | A comparison of epigean and subterranean locomotion in the domestic ferret (Mustela putorius furo: Mustelidae: Carnivora). |
| Q51586759 | A comparison of the physiological response to tölt and trot in the Icelandic horse. |
| Q42854902 | A dynamic systems view of habits |
| Q47977863 | A feedback-controlled treadmill (treadmill-on-demand) and the spontaneous speed of walking and running in humans |
| Q48241214 | A novel, bounding gait in swimming turtles: implications for aquatic locomotor diversity |
| Q49094768 | A preliminary study on pressure-plate evaluation of forelimb toe-heel and mediolateral hoof balance on a hard vs. a soft surface in sound ponies at the walk and trot |
| Q40153557 | A review of research on equine locomotion and biomechanics |
| Q30619418 | A simple rule for quadrupedal gait generation determined by leg loading feedback: a modeling study |
| Q34477285 | A simple state-determined model reproduces entrainment and phase-locking of human walking |
| Q39863539 | A stability-based mechanism for hysteresis in the walk-trot transition in quadruped locomotion |
| Q42010468 | A synergetic theory of quadrupedal gaits and gait transitions |
| Q38811991 | A unified theory for the energy cost of legged locomotion |
| Q41526300 | Adaptive Control Strategies for Interlimb Coordination in Legged Robots: A Review |
| Q36148012 | Adaptive Remodeling of Achilles Tendon: A Multi-scale Computational Model |
| Q73366685 | An Energetic Comparison of Symmetrical and Asymmetrical Human Gait |
| Q39603479 | An exploration of the influence of diagonal dissociation and moderate changes in speed on locomotor parameters in trotting horses. |
| Q48929961 | Analysis of the gait generation principle by a simulated quadruped model with a CPG incorporating vestibular modulation |
| Q58038023 | Arboreality in acacia rats (Thallomys paedulcus ; Rodentia, Muridae): gaits and gait metrics |
| Q34181809 | Are transitions in human gait determined by mechanical, kinetic or energetic factors? |
| Q49099631 | Biomechanical responses of the back of riding horses to water treadmill exercise |
| Q41484797 | Cardiovascular response to exercise and training in the horse |
| Q28710400 | Cavemen were better at depicting quadruped walking than modern artists: erroneous walking illustrations in the fine arts from prehistory to today |
| Q49203615 | Challenging human locomotion: stability and modular organisation in unsteady conditions |
| Q47591359 | Characteristic Patterns of Gait in the Healthy Old |
| Q30839678 | Climbing favours the tripod gait over alternative faster insect gaits. |
| Q82358273 | Comparison of net anaerobic energy utilisation estimated by plasma lactate accumulation rate and accumulated oxygen deficit in Thoroughbred horses |
| Q47118568 | Computational modeling of spinal circuits controlling limb coordination and gaits in quadrupeds |
| Q51964673 | Computer optimization of a minimal biped model discovers walking and running. |
| Q44921412 | Constrained optimization of metabolic cost in human hopping |
| Q91619840 | Decoding the essential interplay between central and peripheral control in adaptive locomotion of amphibious centipedes |
| Q34299216 | Determinants of the gait transition speed during human locomotion: Kinematic factors |
| Q33640108 | Do humans optimally exploit redundancy to control step variability in walking? |
| Q48683878 | Dynamics of hand preference in 4 year-old children |
| Q116336520 | Ecological Performance in the Actively Foraging Lizard Ameiva ameiva (Teiidae) |
| Q39044351 | Effect of activity duration on recovery and metabolic costs in the desert iguana (Dipsosaurus dorsalis). |
| Q45997315 | Effect of load on preferred speed and cost of transport. |
| Q73598934 | Effects of attention on phase transitions between bimanual coordination patterns: a behavioral and cost analysis in humans |
| Q39107267 | Electromyography and economy of walking in chronic heart failure and heart transplant patients |
| Q30459676 | Embodied Perception and the Economy of Action |
| Q28294017 | Endurance running and the evolution of Homo |
| Q34196525 | Energetic cost of carrying loads: have African women discovered an economic way? |
| Q34476990 | Energetics and biomechanics of locomotion by red kangaroos (Macropus rufus). |
| Q36764479 | Energy cost and return for hunting in African wild dogs and cheetahs. |
| Q33501184 | Evidence for a mass dependent step-change in the scaling of efficiency in terrestrial locomotion. |
| Q30393690 | Exercise, music, and the brain: is there a central pattern generator? |
| Q56091999 | Extreme physiological adaptations as predictors of climate-change sensitivity in the narwhal, Monodon monoceros |
| Q42671301 | Field swimming performance of bluegill sunfish, Lepomis macrochirus: implications for field activity cost estimates and laboratory measures of swimming performance. |
| Q34014541 | Functional electrical stimulation of intrinsic laryngeal muscles under varying loads in exercising horses |
| Q27324305 | Gait Transitions in Human Infants: Coping with Extremes of Treadmill Speed |
| Q46979562 | Gait as solution, but what is the problem? Exploring cost, economy and compromise in locomotion |
| Q28743998 | Gait-specific energetics contributes to economical walking and running in emus and ostriches |
| Q51550542 | Gait-specific metabolic costs and preferred speeds in ring-tailed lemurs (Lemur catta), with implications for the scaling of locomotor costs. |
| Q34140255 | Gripping during climbing of arboreal snakes may be safe but not economical |
| Q46453290 | HORSE SPECIES SYMPOSIUM: Biomechanics of the exercising horse |
| Q47437435 | Hand and body position during locomotor behavior in the aye-aye (Daubentonia madagascariensis). |
| Q51249474 | Horse-like walking, trotting, and galloping derived from kinematic Motion Primitives (kMPs) and their application to walk/trot transitions in a compliant quadruped robot. |
| Q48271441 | Horsing around: spontaneous four-legged coordination |
| Q74578536 | How does a periodic rotating wave emerge from high-dimensional chaos in a ring of coupled chaotic oscillators? |
| Q37435540 | Humans robustly adhere to dynamic walking principles by harnessing motor abundance to control forces |
| Q28603671 | Identification of mouse gaits using a novel force-sensing exercise wheel |
| Q39371796 | Improving the accuracy of estimates of animal path and travel distance using GPS drift-corrected dead reckoning |
| Q48345849 | Introduction to the Symposium: Towards a General Framework for Predicting Animal Movement Speeds in Nature. |
| Q33647765 | Investigation on Inter-Limb Coordination and Motion Stability, Intensity and Complexity of Trunk and Limbs during Hands-Knees Crawling in Human Adults |
| Q59077152 | Just skip it |
| Q38074917 | Key properties of expert movement systems in sport : an ecological dynamics perspective |
| Q27340462 | Kinematic responses to changes in walking orientation and gravitational load in Drosophila melanogaster |
| Q35158622 | Kinematics and dynamics of burst transitions |
| Q39598614 | Locomotor behavior and control in human and non-human primates: comparisons with cats and dogs |
| Q56603759 | Locomotor energetics and hominid evolution |
| Q27334430 | Locomotor preferences in terrestrial vertebrates: An online crowdsourcing approach to data collection. |
| Q36091387 | Male sexually coercive behaviour drives increased swimming efficiency in female guppies |
| Q47969155 | Mechanical model for theoretical determination of maximum running speed in mammals |
| Q56806911 | Modulating postural control to facilitate visual performance |
| Q38718050 | Morphology and the gradient of a symmetric potential predict gait transitions of dogs |
| Q28752517 | Motions of the running horse and cheetah revisited: fundamental mechanics of the transverse and rotary gallop |
| Q30360229 | Movement consistency during repetitive tool use action. |
| Q36592284 | Moving the arm at different rates: slow movements are avoided |
| Q41237078 | Muscular causes of exercise intolerance in horses |
| Q51913754 | On a multistable dynamic model of behavioral and perceptual infant development. |
| Q52426966 | On the time allometry of co-ordinated rhythmic movements |
| Q37535985 | Optimal speeds for walking and running, and walking on a moving walkway. |
| Q48731602 | Optimization of inspiratory work in periodic breathing in infants |
| Q34236572 | Optimization of muscle activity for task-level goals predicts complex changes in limb forces across biomechanical contexts |
| Q30542199 | Patterns of horse-rider coordination during endurance race: a dynamical system approach |
| Q38962589 | People choose to run at their optimal speed |
| Q37617935 | Physiological response to a breed evaluation field test in Icelandic horses |
| Q47363722 | Physiology: efficiency of equine express postal systems. |
| Q51186312 | Posture, gait and the ecological relevance of locomotor costs and energy-saving mechanisms in tetrapods. |
| Q50787482 | Predicting the Movement Speeds of Animals in Natural Environments. |
| Q58246371 | Preferred gaits of bipedal dinosaurs |
| Q36534077 | Quantification of gait parameters in freely walking wild type and sensory deprived Drosophila melanogaster. |
| Q69972249 | Respiratory adaptations to exercise |
| Q51452091 | Running perturbations reveal general strategies for step frequency selection. |
| Q77492397 | Shared dynamics of attentional cost and pattern stability |
| Q30534760 | Simple robot suggests physical interlimb communication is essential for quadruped walking |
| Q58907079 | Size and Shape: Morphology's Impact on Human Speed and Mobility |
| Q44484657 | Spatio-temporal gait characteristics during transitions from trot to canter in horses |
| Q52232106 | Speed dependency of motion pattern consistency. |
| Q49034318 | Stationary solutions of linear stochastic delay differential equations: applications to biological systems |
| Q51923406 | Stochastic order parameter equation of isometric force production revealed by drift-diffusion estimates. |
| Q45989534 | Stride to stride variability in joint angle profiles during transitions from trot to canter in horses. |
| Q47767245 | Stride variability in human gait: the effect of stride frequency and stride length |
| Q35027123 | Tendon elasticity and muscle function |
| Q61444264 | Terrestrial locomotion energy costs vary considerably between species: no evidence that this is explained by rate of leg force production or ecology |
| Q92483532 | Terrestrial locomotion of the Svalbard rock ptarmigan: comparing field and laboratory treadmill studies |
| Q24672709 | The biomechanics of skipping gaits: a third locomotion paradigm? |
| Q41449976 | The effect of rider weight and additional weight in Icelandic horses in tölt: part II. Stride parameters responses |
| Q58027440 | The effect of spine on the bounding dynamic performance of legged system |
| Q48586914 | The effect of volition on the stability of bimanual coordination. |
| Q34369140 | The effects of three-month oral supplementation with a nutraceutical and exercise on the locomotor pattern of aged horses |
| Q38545223 | The equine neck and its function during movement and locomotion |
| Q52126349 | The flip side of perception-action coupling: locomotor experience and the ontogeny of visual-postural coupling. |
| Q46779240 | The foot-surface interaction and its impact on musculoskeletal adaptation and injury risk in the horse. |
| Q42088837 | The gait of Hipparion sp. from fossil footprints in Laetoli, Tanzania |
| Q34725048 | The interplay of attention and bimanual coordination dynamics |
| Q35558633 | The musculoskeletal system of humans is not tuned to maximize the economy of locomotion. |
| Q37386382 | The peacock train does not handicap cursorial locomotor performance. |
| Q24601431 | Two explanations for the compliant running paradox: reduced work of bouncing viscera and increased stability in uneven terrain |
| Q30651217 | Walking and running in the desert ant Cataglyphis fortis |
| Q30538891 | Walking, running, and resting under time, distance, and average speed constraints: optimality of walk-run-rest mixtures. |