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Linköpings universitet (Linköping University)

Linköpings universitet, LiU, grundades 1975, och startade under 1990-talet ett campus i Norrköping. Universitetet har tre fakulteter. Den tekniska fakulteten benämns ofta vid det äldre namnet Linköpings tekniska högskola, medicinsk fakultet heter sedan 1980-talet Hälsouniversitetet och slutligen finns en filosofisk fakultet. Därtill kommer området Utbildningsvetenskap, som i allt väsentligt har en fakultets status men saknar fakultetsnamn. Med drygt 25 000 studenter och 3 500 anställda (2008) är LiU ett av Sveriges största universitet.
Linköping University became Sweden's sixth university. It has four faculties and 14 departments. There are also a number of research and knowledge centers associated with the university. In 1996 the university opened a second campus in the neighboring city Norrköping. Approximately 25,200 students (20,400 in Linköping and 4,800 in Norrköping) were enrolled in 2008.

More information: http://en.wikipedia.org/wiki/Link%C3%B6ping_University

Tjänstens tillgänglighet Kundens medverkan Interaktion Tjänstekoncept Kärntjänsten Möjliggörande tjänster Värdehöjande tjänster

Agarosgel efter lägesspecifik mutagenes, skift A 090915 1 2 3 4 5 6 7 Kontroll Sandra & Sofia Elin & Matilda Anna & Helena Dick & Emil Mima, Rosemarie & Cecilia

Kort PUM-intro Kristian Sandahl m fl

Praktisk ledning Vi-känsla Kommunikation Gruppnormer Konflikter Det svåra samtalet I kursen: Handledarna är avdelningschefen Kursledaren är personalavdelningen

Stratifierat urval OSU är tillämpbart för (ram)populationer där ett slumpmässigt valt element är “representativt” för hela populationen Om man på förhand vet att populationen är grupperad i den eller de frågeställningar man vill analysera… OSU kan leda till ett skevt urval Grupperingen måste tas hänsyn till i urvalsförfarandet  Stratifierat urval

732G70 Statistik A FL6 Detta är en generell mall för att göra PowerPoint presentationer enligt LiUs grafiska profil. Du skriver in din rubrik, namn osv på sid 1. Börja sedan skriva in din text på sid 2. För att skapa nya sidor, tryck Ctrl+M. Sidan 3 anger placering av bilder och grafik. Titta gärna på ”Baspresentation 2008” för exempel. Den sista bilden är en avslutningsbild som visar LiUs logotype och webadress. Om du vill ha fast datum, eller ändra författarnamn, gå in under Visa, Sidhuvud och Sidfot.

Final Thesis, International Master Programme, Applied Biology, 2007 Monitoring of butterflies within a landscape context Dennis Jonason Supervisor: Karl-Olof Bergman & Per Milberg Background Monitoring of butterflies is almost exclusively performed in grassland habitats, creating a bias of both information and conservation efforts aimed at only a part of the species pool. The aim of this study was: Method On the inner border of seven randomly placed landscape-squares, all butterflies and burnet moth was recorded six times over the season using a line transect method. Each individual was assigned to a vegetation type followed an aerial interpretation. Location of the study sites in the county of Östergötland, SE Sweden, and illustration of a landscape square 26 4 4 6 3 Unique spp. 26 22 19 33 30 Ind. per 100 m 83 30 57 55 42 Spp. of total (%) Clear-cuts + grasslands + bogs Bogs Other grasslands Clear-cuts Semi-natural grasslands Comparison of butterfly diversity and abundance in four different vegetation types. Unique species in the last column is in comparison with classified semi-natural grasslands. Spptot= 53, Indtot= 2234 Results Of the environmental variables, tree cover had largest impact on butterfly abundance (28% of the variation). Butterfly abundance versus total tree cover. R2...

Vulnerability of moose and roe deer to wolf predation in Scandinavia - does habitat matter? Contact Lisette Fritzon lisette_fritzon@hotmail.com http://cms.ifm.liu.se/edu/biology/master_projects/2007/lisette-fritsson/ Applied Biology International Master Programme Dep. of Biology, IFM, University of Linköping Acknowledgements First of all I would like to thank my supervisors Håkan Sand, Camilla Wikenros, Grimsö Wildlife Research Station, and Mats Amundin, Kolmården Zoological Park, for guiding me through this project. Many thanks to my two field assistants Sabrina Muller and Undine Knappwost and to my dog Sam for always being by my side. Grzegorz Mikusinski was very helpful and encouraging during all hours of working with Arc View. Thank you all for making this thesis possible! Material and Method Habitat features were compared at sites where wolves killed moose and roe deer, with sites 500 m from kills (control sites) and with sites randomly distributed within territories. The choice of habitats, kill sites, and their landscape features were investigated. Kill sites were visited in the field and classified according to a number of physical and vegetation characteristics during the summer of 2006. The same sites were the analyzed on a larger scale using different layers in GIS. Kill sites were compared to control and randomly distributed sites and statistical models were constructed in order to identify habitat characteristics that were significantly related ...

Competence area: Sensor fusion utilizing existing automotive sensors. Examples of virtual sensor and control applications: Offset-free yaw angle and drift-free yaw rate (lateral dynamics) Offset-free velocity and acceleration (longitudinal dynamics) Roll angle estimation for motor cycles (roll dynamics) Map based positioning yields navigation without GPS Road friction monitoring algorithms (originates from Prometheus 92-94) Tire inflation pressure monitoring algorithms Model-based anti-spin algorithms (originates from system in Swedish car) Collision mitigation by braking and steering (car company in Sweden) All projects are documented in papers and patents, implemented and tested in practice by Swedish vehicle industry. Some are commercialized. LiU-LiTH example: Sensor fusion in road vehicles Contents to be selected by Rolf Rising, ISA. For revisions, feel free to contact the authors: Slide 1) Fredrik Gustafsson +46706466565 Slide 2) Torbjörn Alm +46703795690 Slide 3) Lennart Strandberg +46705432134 Slide Master text on bottom blue line – Valid for all slides Web address www.liu.se/vidi/ leads to links with IVSS-info available 18 June 2003. Nevertheless, a new directory ivss should be opened by UNIT as soon as possible and the slide footer changed accordingly to www.liu.se/ivss/
Predictable Implementation of Real-Time Applications on Multiprocessor Systems-on-Chip

Predictable Implementation of Real-Time Applications on Multiprocessor Systems-on-Chip

Alexandru Andrei Embedded Systems Laboratory Linköping University, Sweden

Do enclosure characteristics affect anti-predator behaviour in the European bison (Bison bonasus)? Final thesis: International Master Programme Applied Ethology and Animal Biology 2009, Linköping University By: Annika Hofling Supervisor: Mats Amundin Aim - To find out if animals respond differently to stimuli depending on enclosure characteristics Thanks to: Methods Animals in 7 enclosures 4 naturalistic 3 barren 3 types of stimuli Olfactory Auditory Visual 2 Measures Time Reaction Animals in barren enclosures responded stronger than animals in naturalistic to auditory stimuli naturalistic enclosures responded stronger than animals in barren to the visual stimulus naturalistic enclosures responded stronger to the visual stimulus than auditory stimuli Conclusion Enclosure characteristics might have an effect on the anti-predator behaviour Figure 1. Mean time of interest (±S.D.) to a) olfaction and b) auditory and visual and c) percent of animals in each response category (0= no response, 3= most intense response) for animals in naturalistic (black bar) and barren (white bar) enclosures, ** p≤0.01 *p≤0.05. 0 10 20 30 40 50 60 Olfactory Time (s) a) 0% 20% 40% 60% 80% 100% 0 1 2 3 0 1 2 3 Percent of animals Auditory Visual c) 0 100 200 300 400 500 Auditory Visual Time (s) b) * ** For more information: annika.hofling@gmail.com
Road user behaviour Dynamics of car D

Road user behaviour Dynamics of car D
Dissekera ett mobiltelefonerbjudande

Dissekera ett mobiltelefonerbjudande
Är universitetet en effektiv offentlig verksamhet?

Är universitetet en effektiv offentlig verksamhet?

BIACORE Cirka 30 år, framtagen i Linköping Mäter ka och kd samt jämviktskonstanter Mycket noggrann och snabb metod Kräver små mängder prov Proteinet kan återanvändas (förstörs ej) Felkällor syns tydligt i resultatet
A Synthesised Service Quality Model with Managerial Implications

A Synthesised Service Quality Model with Managerial Implications

Grupp A2 Amir, Erik & Jessica

Wittgensteins Språksyn Ludwig Wittgenstein 1889-1951

1000 900 800 700 600 500 400 300 200 100 100506 KBB Gelelektrofores, separation av mitokondrie DNA Stege 100-1000bp Kontroll, 56ºC Lina, Gustav, Henrik,56ºC Sarah, Jonna, 56ºC Lisa, Michi, 56ºC Justus, Zara, 56ºC Elin, Linnea, 56ºC Elin, Linnea, 56ºC Kontroll, 57ºC Markus, Hamid, 57ºC Åsa &Co. 57ºC Kontroll, 58ºC Ida, Emma, 58ºC Sabina, Therese, 58ºC

100909 A-skiftet, Lägesspecifik mutagenes Stege Alexander, Sanela ( Y72W) Emelie, Marielle (Y31W) Justus, Anel (Y72W) 4) Katrin, Anna (Y72W) 5) Dan, Marie (Y31W) 6) PCR kontroll 7) Tom, Maria (C107W) Hamid, Markus (Y72W) Linnea, Henrik, Elin (Y72W)
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