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1	Soft tissue mechanics with emphasis on residual stress modeling / Olsson, Tobias, January 2007 (has links) Diss. Linköping : Linköpings universitet , 2007. Biomekanik.
2	Detektering av in- och utandning vil bilkörning med hjälp av Matlab Johansson, Filip January 2012 (has links) Volvo Human Monitoring (VHM) is an ongoing project at Volvo Cars where they measure, amongst other parameters, inhalation and exhalation through a device called Respiratory Inductance Plethysmograph (RIP), on drivers. RIP measures changes in the cross-sectional area of the chest and abdomen. When the driver is in motion, such as when she is turning the vehicle, the cross-sectional area changes and noise in the RIP signal may arise.The noise results in a large number of manual adjustments in the analysis of the RIP signal, which is very time consuming and the validity of the device for measuring inhalation and exhalation is questioned.The purpose of this study was to improve the efficiency of the analysis of the RIP signal. The goal was to create a new data processing tool in Matlab that automatically detects inhalation and exhalation from a RIP signal with higher validity compared to the previous data processing tool.In this study, nine tests were performed on drivers while they were driving in different scenarios such as highway, country road and in city traffic. Inhalation and exhalation was measured using a RIP, a pneumotachograph with a tightly sealed facemask and a thermocouple placed between the nose and mouth, which was used as reference to the RIP.The result of this study was a data processing tool that automatically detects inhalation and exhalation with higher validity compared to the previous data processing tool. The tool marks the sequences where the risk is high that the RIP measures inhalation and exhalation in a faulty way or removes inhalations and exhalations during these sequences, depending on the user’s preference.This study has also contributed new knowledge about an alternative device, thermocouple, for detecting inhalation and exhalation with higher validity than with the RIP while driving. / VHM biomekanik mekatronik HMI Interaktionsdesign
3	Computational biomechanics in cross-country skiing / Holmberg, L. Joakim, January 2008 (has links) Licentiatavhandling (sammanfattning) Linköping : Linköpings universitet, 2008. / Härtill 5 uppsatser. Biomechanics. Biomekanik Längdåkning
4	Stillasittande - Ansvarstagande miljö : Utvecklande av stödjande teknik i befintlig miljö Eriksson, Torbjörn, Kriborg, Simon January 2016 (has links) Människans anatomi och fysiologi har inte genomgått större förändringar på 50 000 år, under de senare århundradena har dock enorma förändringar av människans fysiska aktivitet skett. På senare tid har stillasittande seglat upp som en oberoende riskfaktor skiljt från rekommendationer om motion. Att lyfta stillasittande till lågintensiv fysisk aktivitet så som gående, anses vara den största möjligheten för att förebygga riskerna (så som diabetes, hjärt- och kärlsjukdomar mm) till följd av långvarigt stillasittande. Problematiken togs upp i ett utvecklingsprojekt inom hälsoinnovation med syfte att öka muskelaktivering i vardagsmiljö, där aspekten att aktuella produkter är individuella, men problematiken finns på gruppnivå framkom. Deltagarna i projektet var utöver Linus Ståhl och Andrea Cardenbäck även Torbjörn Eriksson, som tillsammans med Simon Kriborg skapade detta examensarbete med inriktning på arbetsmiljö. Examensarbetet avsåg att visa hur ansvaret för att inte guida in människor i ohälsosamt stillasittande, kan ligga på den befintliga miljön. Examensarbetet inleddes i egen regi men knöt snabbt samarbetsavtal med Hälsoteknikcentrum Halland. Projektet har genomförts på bred front där såväl detektion av sittande, databehandling, återkoppling behandlats genom litteraturstudier, iterativ produktutvecklingsmetodik med 6-3-5 metoden, Pughs utvärderingsmatris samt avslutande prototypbygge, där delar genomförts tillsammans med samarbetspartnern Bosbec. Då delar av projektet legat utanför Projektgruppens (PG) scope of practice har förankring av införskaffad information inom områdena verifierats genom intervjuer med verksamma inom respektive område. Vidare har användarinvolvering skett genom projektets gång i olika former. Resultatet av projektets ena del är en föreslagen vägghängd återkopplande produkt, med upplyst sittande person i olika färger för att spegla risknivån av fortsatt sittande av individerna i gruppen. Vid rekommendation om att gruppen bör avbryta det kollektiva sittandet, tänds även en efter arbetsmiljöverkets föreskrifter utformad påbudsskylt föreställande en person resandes från en stol. Vid färgskiftningarna spelas även ett ljud upp för att kunna involvera fler grupper. Resultatet av den andra del är egentillverkade sittsensorer med bra upplevd respons, speciellt i förhållande till deras kostnadseffektivitet som väckt intresse hos samarbetspartner för fler eventuella tillämpningsområden inom hälsotekniksområdet. Ett usability test utfördes på en första enkel prototyp utan ljudåterkoppling i form av en cognitive walkthrough (CW) med resultatet att testdeltagarna förstod skylten och hur deras beteende påverkade återkopplingen. Med kostnadseffektiva sensorer och initialt testad och förbättrad återkopplande produkt med ljus och ljud, har presenterad produkt potential att lyfta medvetenheten om risker med stillasittande. Biomekanik ergonomi arbetsmiljö produktutveckling stillasittande
5	Vibrationsträning vid knäledsartros Pettersson, Sofia, Bengtsson, Sanna January 2007 (has links) <p>In cooperation with Hälsoteamet Halmstad a pilot study was made to see if whole body vibration exercise has any effect on muscle strength, movement and experience of pain in people with knee osteoarthritis. Today whole body vibration exercise is a revolutionary exercise method that needs more studies to show the positive and negative effects. </p><p>Osteoarthritis is a degenerative disease where more cartilage is destroyed than replaced. The most common symptoms are pain, stiffness, restricted movement, muscularly atrophy, tenderness and instability. The cartilage needs pressure to rebuild, it is therefore important that the patient exercise. Studies have shown that whole body vibration exercise with low amplitude and frequency has effects like alleviation of pain, increased movement and muscle strength. </p><p>The aim of this study was to see if strength training on an Xrsize vibration plate has an effect on muscle strength, movement and experience pain in people with knee osteoarthritis. The subject group has included six women and one man between the ages of 56 to 70 years, with knee osteoarthritis verified by x-ray. Following methods was made before and after intervention to measure muscle strength, movement and experience pain: KOOS, interview, VAS, Elektrogoniometer, MuscleLab, chair stands, six minute walk test and one leg jump. The vibration programme included three dynamic exercises, performed at the frequency of 25 Hz.</p><p>The test results show that three people have increased their muscle strength and movement and also decreased the experience of pain from the osteoarthritis. According to the subject group, four people experienced positive effects and three experienced negative or no effect. </p><p>The subject group was too small to make a general conclusion of the effects on knee osteoarthritis from whole body vibration exercise. The positive and negative effects from this study indicate a need for a larger study including a control group.</p> Anatomi Artros Biomekanik Knäartros Vibrationsträning
6	Vibrationsträning vid knäledsartros Bengtsson, Sanna, Pettersson, Sofia January 2007 (has links) <p>In cooperation with Hälsoteamet Halmstad a pilot study was made to see if whole body vibration exercise has any effect on muscle strength, movement and experience of pain in people with knee osteoarthritis. Today whole body vibration exercise is a revolutionary exercise method that needs more studies to show the positive and negative effects. </p><p>Osteoarthritis is a degenerative disease where more cartilage is destroyed than replaced. The most common symptoms are pain, stiffness, restricted movement, muscularly atrophy, tenderness and instability. The cartilage needs pressure to rebuild, it is therefore important that the patient exercise. Studies have shown that whole body vibration exercise with low amplitude and frequency has effects like alleviation of pain, increased movement and muscle strength. </p><p>The aim of this study was to see if strength training on an Xrsize vibration plate has an effect on muscle strength, movement and experience pain in people with knee osteoarthritis. The subject group has included six women and one man between the ages of 56 to 70 years, with knee osteoarthritis verified by x-ray. Following methods was made before and after intervention to measure muscle strength, movement and experience pain: KOOS, interview, VAS, Elektrogoniometer, MuscleLab, chair stands, six minute walk test and one leg jump. The vibration programme included three dynamic exercises, performed at the frequency of 25 Hz.</p><p>The test results show that three people have increased their muscle strength and movement and also decreased the experience of pain from the osteoarthritis. According to the subject group, four people experienced positive effects and three experienced negative or no effect. </p><p>The subject group was too small to make a general conclusion of the effects on knee osteoarthritis from whole body vibration exercise. The positive and negative effects from this study indicate a need for a larger study including a control group.</p> anatomi artros biomekanik knäartros vibrationsträning
7	Vibrationsträning vid knäledsartros Pettersson, Sofia, Bengtsson, Sanna January 2007 (has links) In cooperation with Hälsoteamet Halmstad a pilot study was made to see if whole body vibration exercise has any effect on muscle strength, movement and experience of pain in people with knee osteoarthritis. Today whole body vibration exercise is a revolutionary exercise method that needs more studies to show the positive and negative effects. Osteoarthritis is a degenerative disease where more cartilage is destroyed than replaced. The most common symptoms are pain, stiffness, restricted movement, muscularly atrophy, tenderness and instability. The cartilage needs pressure to rebuild, it is therefore important that the patient exercise. Studies have shown that whole body vibration exercise with low amplitude and frequency has effects like alleviation of pain, increased movement and muscle strength. The aim of this study was to see if strength training on an Xrsize vibration plate has an effect on muscle strength, movement and experience pain in people with knee osteoarthritis. The subject group has included six women and one man between the ages of 56 to 70 years, with knee osteoarthritis verified by x-ray. Following methods was made before and after intervention to measure muscle strength, movement and experience pain: KOOS, interview, VAS, Elektrogoniometer, MuscleLab, chair stands, six minute walk test and one leg jump. The vibration programme included three dynamic exercises, performed at the frequency of 25 Hz. The test results show that three people have increased their muscle strength and movement and also decreased the experience of pain from the osteoarthritis. According to the subject group, four people experienced positive effects and three experienced negative or no effect. The subject group was too small to make a general conclusion of the effects on knee osteoarthritis from whole body vibration exercise. The positive and negative effects from this study indicate a need for a larger study including a control group. Anatomi Artros Biomekanik Knäartros Vibrationsträning
8	Vibrationsträning vid knäledsartros Bengtsson, Sanna, Pettersson, Sofia January 2007 (has links) In cooperation with Hälsoteamet Halmstad a pilot study was made to see if whole body vibration exercise has any effect on muscle strength, movement and experience of pain in people with knee osteoarthritis. Today whole body vibration exercise is a revolutionary exercise method that needs more studies to show the positive and negative effects. Osteoarthritis is a degenerative disease where more cartilage is destroyed than replaced. The most common symptoms are pain, stiffness, restricted movement, muscularly atrophy, tenderness and instability. The cartilage needs pressure to rebuild, it is therefore important that the patient exercise. Studies have shown that whole body vibration exercise with low amplitude and frequency has effects like alleviation of pain, increased movement and muscle strength. The aim of this study was to see if strength training on an Xrsize vibration plate has an effect on muscle strength, movement and experience pain in people with knee osteoarthritis. The subject group has included six women and one man between the ages of 56 to 70 years, with knee osteoarthritis verified by x-ray. Following methods was made before and after intervention to measure muscle strength, movement and experience pain: KOOS, interview, VAS, Elektrogoniometer, MuscleLab, chair stands, six minute walk test and one leg jump. The vibration programme included three dynamic exercises, performed at the frequency of 25 Hz. The test results show that three people have increased their muscle strength and movement and also decreased the experience of pain from the osteoarthritis. According to the subject group, four people experienced positive effects and three experienced negative or no effect. The subject group was too small to make a general conclusion of the effects on knee osteoarthritis from whole body vibration exercise. The positive and negative effects from this study indicate a need for a larger study including a control group. anatomi artros biomekanik knäartros vibrationsträning
9	Vidareutveckling av E : X.I.T. - Ett instrument för mätning av extensionskraften kring MCP-lederna Pinget, Julien January 2008 (has links) <p>Reumatoid Artrit är en kronisk systemsjukdom som bland annat drabbar leder, skelett och muskler. Kännetecknande symptom innefattar svullnad och värk i mindre leder på grund av en nedbrytning av ledernas brosk och omgivande vävnader. Händerna är bland de första drabbade kroppsdelarna, med nedsatt funktion och försämrad livskvalitet hos patienten som följd. Väldigt få alternativ är tillgängliga idag för att bedöma resultatet av en behandling. Dessutom, trots att sjukdomens påverkan på lederna är väldokumenterad finns det begränsade vetenskapliga data angående musklernas tillstånd. Till detta ändamål utvecklades en apparat på Högskolan i Halmstad år 2005 för att mäta extensionskraften i fingrarna kring knoglederna. Denna rapport beskriver ett projekt utförd med syfte att förbättra den nuvarande prototypen, både funktionellt och designmässigt. Ett nytt koncept togs fram genom tillämpningen av Stig Ottossons Dynamisk Produktutveckling. Kvalitativ information från intervjuer med arbetsterapeuter och patienter blev den huvudsakliga informationskällan. Konceptets grundprincip blev en fjäder som tillåter mätningar i såväl extension som flexion. Utformningen av konstruktionens olika komponenter strävade efter att lösa olika besvär med den nuvarande prototypen. Med hjälp av ett antal designverktyg utvecklades två förslag på basenheter med en tilltalande form. Varje förslag erbjuder olika grader av bärbarhet men bygger kring samma grundprinciper: utökad användarvänlighet och anpassat dataformat. Arbetets resultat breddar användningsområdena för apparaten samtidigt som det erbjuder användaren en enklare hantering av instrumentet.</p> Reumatoid artrit MCP-lederna Kraftmätning Biomekanik
10	Vidareutveckling av E : X.I.T. - Ett instrument för mätning av extensionskraften kring MCP-lederna Pinget, Julien January 2008 (has links) Reumatoid Artrit är en kronisk systemsjukdom som bland annat drabbar leder, skelett och muskler. Kännetecknande symptom innefattar svullnad och värk i mindre leder på grund av en nedbrytning av ledernas brosk och omgivande vävnader. Händerna är bland de första drabbade kroppsdelarna, med nedsatt funktion och försämrad livskvalitet hos patienten som följd. Väldigt få alternativ är tillgängliga idag för att bedöma resultatet av en behandling. Dessutom, trots att sjukdomens påverkan på lederna är väldokumenterad finns det begränsade vetenskapliga data angående musklernas tillstånd. Till detta ändamål utvecklades en apparat på Högskolan i Halmstad år 2005 för att mäta extensionskraften i fingrarna kring knoglederna. Denna rapport beskriver ett projekt utförd med syfte att förbättra den nuvarande prototypen, både funktionellt och designmässigt. Ett nytt koncept togs fram genom tillämpningen av Stig Ottossons Dynamisk Produktutveckling. Kvalitativ information från intervjuer med arbetsterapeuter och patienter blev den huvudsakliga informationskällan. Konceptets grundprincip blev en fjäder som tillåter mätningar i såväl extension som flexion. Utformningen av konstruktionens olika komponenter strävade efter att lösa olika besvär med den nuvarande prototypen. Med hjälp av ett antal designverktyg utvecklades två förslag på basenheter med en tilltalande form. Varje förslag erbjuder olika grader av bärbarhet men bygger kring samma grundprinciper: utökad användarvänlighet och anpassat dataformat. Arbetets resultat breddar användningsområdena för apparaten samtidigt som det erbjuder användaren en enklare hantering av instrumentet. Reumatoid artrit MCP-lederna Kraftmätning Biomekanik

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