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Related Concept Videos

Movement Joints in Buildings01:27

Movement Joints in Buildings

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Movement joints in buildings are essential design elements that accommodate inevitable motions caused by various factors such as temperature changes, moisture content variations, and structural deflections. These motions, if not considered in design and construction, can lead to unsightly or dangerous damage. Movement joints are incorporated in different forms to manage these stresses and allow materials to move without causing distress.
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The adult human body usually has 206 bones, and except for the hyoid bone in the neck, each bone is connected to at least one other bone. Joints are the location where bones come together. Many joints allow for movement between the bones. At these joints, the articulating surfaces of the adjacent bones can move smoothly against each other. However, the bones of other joints may be joined by connective tissue or cartilage. These joints are designed for stability and provide little or no...
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The force applied by fluids against a surface, known as hydrostatic pressure, initiates the transfer of fluid among different compartments. Within our blood vessels, the blood's hydrostatic pressure is a result of the heart's pumping action. At the arteriolar end of capillaries, hydrostatic pressure (capillary blood pressure) exceeds the opposing colloid osmotic pressure created primarily by plasma proteins like albumin. This discrepancy in pressure propels plasma and nutrients from the...
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Joints, also called articulations or articular surfaces, are points at which ligaments or other tissues connect adjacent bones. Joints permit movement and stability, and can be classified based on their structure or function.
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Habitat fragmentation describes the division of a more extensive, continuous habitat into smaller, discontinuous areas. Human activities such as land conversion, as well as slower geological processes leading to changes in the physical environment, are the two leading causes of habitat fragmentation. The fragmentation process typically follows the same steps: perforation, dissection, fragmentation, shrinkage, and attrition.
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Author Spotlight: Investigating the Effects of Mind-Body-Movement Practices on Brain Function
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How our homes shape the way we move.

Mélodie Sannier1, Stefan Janaqi1, Gérard Dray1

  • 1EuroMov Digital Health in Motion, University of Montpellier, IMT Mines Alès, Montpellier, France.

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Summary
This summary is machine-generated.

Indoor walking is fragmented and variable, influenced by home environments. Monitoring these patterns can aid in health assessments and smart home development for aging in place.

Keywords:
Indoor human locomotionLongitudinal behavior trackingSmart home monitoring

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Area of Science:

  • Human movement analysis
  • Smart environments
  • Gerontology

Background:

  • Understanding human movement indoors is crucial for developing smart environments and aging-in-place technologies.
  • Domestic spaces present unique constraints and obstacles influencing walking behavior differently than outdoor environments.
  • Investigating indoor walking provides insights into human-environment interactions within homes.

Purpose of the Study:

  • To characterize natural indoor walking behavior over a four-year period.
  • To analyze the influence of domestic environments on locomotion.
  • To explore the potential of indoor walking patterns as health indicators.

Main Methods:

  • A longitudinal study utilizing proximity-sensitive flooring in a smart apartment.
  • Monitoring eight participants in pairs over four years to observe natural indoor walking.
  • Algorithmic analysis of 2.5 million steps and 346,000 walking trajectories.

Main Results:

  • Indoor locomotion is characterized by fragmentation and variability.
  • Environmental constraints significantly shape indoor walking patterns.
  • Home-based walking, despite lower step counts than in public spaces, is a substantial part of daily activity.

Conclusions:

  • Changes in indoor walking patterns may indicate early functional decline.
  • Findings offer new possibilities for health monitoring systems.
  • Results can inform the design of smart homes that support independent living and aging in place.