Running in the real world: adjusting leg stiffness for different surfaces. - Wikidata - wikimedia - TriplyDB

Running in the real world: adjusting leg stiffness for different surfaces.

Running in the real world: adjusting leg stiffness for different surfaces.

http://www.wikidata.org/entity/Q55067685

about

Effect of running speed and leg prostheses on mediolateral foot placement and its variability Walking on a moving surface: energy-optimal walking motions on a shaky bridge and a shaking treadmill can reduce energy costs below normal A neural circuitry that emphasizes spinal feedback generates diverse behaviours of human locomotion Don't break a leg: running birds from quail to ostrich prioritise leg safety and economy on uneven terrain.Mechanical work as an indirect measure of subjective costs influencing human movement.An Informational Algorithm as the Basis for Perception-Action Control of the Instantaneous Axes of the Knee.Vibration influences haptic perception of surface compliance during walking Flexible mechanisms: the diverse roles of biological springs in vertebrate movement.Neuromechanical adaptation to hopping with an elastic ankle-foot orthosis.Task-level strategies for human sagittal-plane running maneuvers are consistent with robotic control policies.Biomechanics and energetics of walking on uneven terrain.Intelligence by mechanics.Athletic footwear, leg stiffness, and running kinematics.Lower extremity biomechanical relationships with different speeds in traditional, minimalist, and barefoot footwear.Measurement of passive ankle stiffness in subjects with chronic hemiparesis using a novel ankle robot.Subjective valuation of cushioning in a human drop landing task as quantified by trade-offs in mechanical work.Leg and Joint Stiffness in Children with Spastic Diplegic Cerebral Palsy during Level Walking Leg stiffness of sprinters using running-specific prostheses.Kinetics and Muscle Activity Patterns during Unweighting and Reloading Transition Phases in Running Compliance, actuation, and work characteristics of the goat foreleg and hindleg during level, uphill, and downhill running.Gender specific strategies in demanding hopping conditions.Summary of Human Ankle Mechanical Impedance During Walking.A new approach to modeling vertical stiffness in heel-toe distance runners.Mass-spring-damper modelling of the human body to study running and hopping--an overview.Barefoot running: does it prevent injuries?Achilles tendon injury risk factors associated with running.Factors affecting the energy cost of level running at submaximal speed.Stiffness as a Risk Factor for Achilles Tendon Injury in Running Athletes.Running stability is enhanced by a proximo-distal gradient in joint neuromechanical control.Biomechanical implications of walking with indigenous footwear.Instantaneous stiffness and hysteresis of dynamic elastic response prosthetic feet.Preferred Barefoot Step Frequency is Influenced by Factors Beyond Minimizing Metabolic Rate.Evidence of Energetic Optimization during Adaptation Differs for Metabolic, Mechanical, and Perceptual Estimates of Energetic Cost.Shock absorption during transtibial amputee gait: Does longitudinal prosthetic stiffness play a role?Impact testing of the residual limb: System response to changes in prosthetic stiffness.The influence of playing surface on physiological and performance responses during and after soccer simulation.Shoes alter the spring-like function of the human foot during running.Linking the mechanics and energetics of hopping with elastic ankle exoskeletons.Mechanism of leg stiffness adjustment for hopping on surfaces of different stiffnesses.How do prosthetic stiffness, height and running speed affect the biomechanics of athletes with bilateral transtibial amputations?

P2860

Q27318850-8593D886-F077-43B8-877C-CFAB33705066 Q27333549-626842A7-4355-4835-A638-9CEB4DAED017 Q27346439-4212F7D6-41D6-4B12-B624-BC9F0051E864 Q28654211-2499BA69-4CCC-4A59-9424-4F76D6DD0766 Q31049361-3E04AC9C-5282-4E0E-9915-DB18CD720ECC Q33753086-E46CB340-24C3-4D43-8E9E-A95F802AA9D6 Q33862748-42F885E5-5364-4A52-8ED7-93323F3A244A Q34158702-8A3D9430-09CC-4B60-A70E-F2977DAB863B Q34453163-840DBCC8-93B3-4843-BAA5-F2E14E94529F Q34532484-0F803E7D-3D7F-48AF-B219-131ACB49F361 Q34536219-7A809487-B5FA-479F-ADF4-89FDDAA5A4D5 Q34587633-4FCA0D3B-1452-4210-B542-2422B80CD280 Q35540535-C455F909-1A20-4E98-AFC6-E0A0F00C1D36 Q35583588-EF9696BE-74B6-41D8-89BE-F3020FAAE8E2 Q35807289-F94F8E29-317C-41A2-96BE-EC42F95D64F3 Q35822765-42C983F8-4DEF-4719-B202-037C9BFB512D Q35858489-13B37886-2C38-4257-A874-0A561242EDBF Q36065437-EDA2EA28-30C1-4789-9679-D3E2AB4A25CD Q36228400-C6B6F95A-552F-4BD8-BFA1-CEA38DF90CFA Q36700761-5B7F8020-1387-43CE-A0EF-E76BE92A122F Q37143179-3D58F173-0EC4-4A14-AE4F-277AED63AB94 Q37344703-A01FB967-96AA-43F4-A5F1-4B5EE8BA1B79 Q37657803-3FF0B9CD-49E0-47AD-B679-A4E6C0D00FC4 Q37982753-C02860D2-06F6-4A4F-9ACD-338872987ED7 Q38132724-BDB530D0-1184-49FF-A918-B43A20CE0087 Q38217741-3FAA1B6A-39A7-437A-AA5F-AD625BE2DB32 Q38355240-A18EB818-F201-4085-98B6-EFCC7410B684 Q38838025-83AC1126-63D8-4D6C-BF7D-C00FA9379FFA Q38851455-5B607003-C412-47FC-90E3-829A0AD6DE1B Q39013157-ED72008B-2F99-4B5A-BC16-10757838947F Q39069384-AD580538-56A9-4DC2-8AB8-8E54FA2EB36E Q39128570-1E624910-114B-4C8A-9397-7A1DC41DEA13 Q41332135-03561DD7-811F-46E8-8DB1-5F223E987C29 Q41376515-5C2EC1BB-8094-4746-A0A2-B06F2EEEA837 Q41379785-B76C0C49-7CA4-41D3-B32B-E32338C3655C Q41711817-720E9C26-2BC7-469C-8414-2FC9C99909D6 Q42427852-5B57F27F-4843-4426-8AA5-51E567B198C6 Q44866194-53135523-8AF1-41C5-BD92-C8431F328E53 Q45972227-DD4F9F4F-EC3F-40DF-8A86-B8A425D882EE Q47203475-2256BE07-0BF5-4A32-8587-F75CB999FB3D

P2860

Running in the real world: adjusting leg stiffness for different surfaces.

http://www.wikidata.org/entity/Q55067685

description

1998 nî lūn-bûn

@nan

1998年の論文

@ja

1998年学术文章

@wuu

1998年学术文章

@zh

1998年学术文章

@zh-cn

1998年学术文章

@zh-hans

1998年学术文章

@zh-my

1998年学术文章

@zh-sg

1998年學術文章

@yue

1998年學術文章

@zh-hant

name

Running in the real world: adjusting leg stiffness for different surfaces.

@en

Running in the real world: adjusting leg stiffness for different surfaces.

@nl

type

label

Running in the real world: adjusting leg stiffness for different surfaces.

@en

Running in the real world: adjusting leg stiffness for different surfaces.

@nl

prefLabel

Running in the real world: adjusting leg stiffness for different surfaces.

@en

Running in the real world: adjusting leg stiffness for different surfaces.

@nl

P1433

Q55067685-916BBC3A-12A3-4B7C-B5BB-657BC7B20D8E

P1476

Q55067685-8CBC9704-DCD7-480B-8F29-06E59F865767

P2093

Q55067685-24AE8A90-12E3-4164-A1FC-87B937B2CEB7

Q55067685-B2AB156A-4D7E-4937-8DD6-522E69D06E13

Q55067685-BBFE95A5-4AA9-4CA1-A09D-40688B5B8A38

P2860

Q55067685-0FD6AA6B-5C74-44E2-B6AE-1C4B6E8EAED2

Q55067685-22F447F1-641C-4F96-9861-D62BE2DCA515

Q55067685-3AF779FD-6E09-4E08-9CD5-2675A127F084

Q55067685-422437D0-0CE8-44BE-B575-FBE4C5AF9A41

Q55067685-473EC6F5-A1A8-4572-AFEB-D6F0754BD99C

Q55067685-6571DE32-D000-4B8D-BD9B-0F17756567E5

Q55067685-81B32C6B-5E2A-4EEC-9CEC-735B33577CD6

Q55067685-89797564-9147-43AB-B7BF-0194040E09F2

Q55067685-91BD3600-213D-462B-B2F0-93789ED11E32

Q55067685-AD2B21A4-08A0-49E8-881A-63787E84F22C

P304

Q55067685-587E5F32-88DC-4DAD-9BF2-EF60C0DEADF6

P31

Q55067685-289BDF7F-2988-488C-9AD2-3CEE84CDA23E

P356

Q55067685-07DC35FC-B9FA-4F62-A393-274B2FEFC50A

P433

Q55067685-484D71CC-45AF-4C77-A647-7D549ADAF43A

P478

Q55067685-1DC9554D-FC57-4967-8E17-F7ED647AA258

P577

Q55067685-4EB616DE-50A5-41B4-B27D-4EA57003AADD

P5875

Q55067685-7D38524D-CD74-457A-AD93-F93ECBBCF45F

P698

Q55067685-6FE663AF-AF1A-4A7C-AE07-8E215E42CE66

P932

Q55067685-D2264498-D0EB-440E-BD39-660E11B72D17

P356

P1433

Proceedings of the Royal Society B

P1476

Running in the real world: adjusting leg stiffness for different surfaces.

@en

P2093

C T Farley

http://www.w3.org/2001/XMLSchema#string

D P Ferris

http://www.w3.org/2001/XMLSchema#string

M Louie

http://www.w3.org/2001/XMLSchema#string

P2860

Muscular force in running turkeys: the economy of minimizing work

The spring in the arch of the human foot

Hopping frequency in humans: a test of how springs set stride frequency in bouncing gaits.

Improvement in linearity and regulation of stiffness that results from actions of stretch reflex.

Running springs: speed and animal size.

Leg stiffness and stride frequency in human running.

The modulation of human reflexes during functional motor tasks.

Sensorimotor gain control: a basic strategy of motor systems?

Biomechanical aspects of playing surfaces.

Proprioceptive regulation of locomotion.

P304

989-994

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1098/RSPB.1998.0388

http://www.w3.org/2001/XMLSchema#string

P433

1400

http://www.w3.org/2001/XMLSchema#string

P478

265

http://www.w3.org/2001/XMLSchema#string

P577

1998-06-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

13608966

http://www.w3.org/2001/XMLSchema#string

P698

9675909

http://www.w3.org/2001/XMLSchema#string

P932

1689165

http://www.w3.org/2001/XMLSchema#string