Acta Societatis pro fauna et flora Fennica

Kielet saksa ja ruotsi

Demonstration of multi gas exhaust measurements during cold start conditions

The project is focused on testing and demonstration of exhaust gasmeasurements in cold climate using FTIR multigas exhaust analyser.Godkänd; 2009; 20090817 (boti)CASTT - Centre for Automotive Systems Technologies and Testin

Endogenous plasticity in neuro-rehabilitation following partial spinal cord lesions

Currently, much interest in neuro-rehabilitation is focused on mechanisms related to axonal outgrowth and formation of new circuits although still little is known about the functionality in motor behavior. This is a highly exciting avenue of research and most important to consider when dealing with large lesions. Here, we address endogenous mechanisms with the potential of modifying the function of already existing spinal circuits via associative plasticity. We forward a hypothesis based on experimental findings suggesting that potentiation of synaptic transmission in un-injured pathways can be monitored and adjusted by a Cerebellar loop involving the Reticulospinal, Rubrospinal and Corticospinal tracts and spinal interneurons with projection to motoneurons. This mechanism could be of relevance when lesions are less extensive and the integrity of the neural circuits remains in part. Endogenous plasticity in the spinal cord could be of clinical importance if stimulated in an adequate manner, e.g., by using optimal training protocols

Vehicle test system : a pilot study

Vehicle test system and exhaust multi gas equipment for transient measurements in cold climate. A pilot study to demonstrate regional competence of advanced measurement technology for vehicle test companies in north of Sweden.Godkänd; 2007; 20071026 (ysko)</p

Vehicle test system : a pilot study

Vehicle test system and exhaust multi gas equipment for transient measurements in cold climate. A pilot study to demonstrate regional competence of advanced measurement technology for vehicle test companies in north of Sweden.Godkänd; 2007; 20071026 (ysko)</p

Print Matters III

Navn på arrangementet: Group Exhibition Sted: Krakow Dato fra: 15. oktober 2022 Dato til: 15. november 2022 Arrangør: Arrangørnavn: Academy of Fine Arts Jana MatejkiHow can print mediate in an age of algorithms, big data and artificial intelligence? Does scanning, scrolling and browsing digital images augment our reality? As a collection of works on paper, this group show is a beacon of kinship and a manifestation that print matters. Artists: Alejandra Aguilar Caballero, Amalie Rugård Jensen, Anna Weilhartner, Anne Hasli, Anton Fyrst, Beatrice Guttormsen Ben Clement, Bror Mikkelborg, Debangona Paul, Enrique Guardarrama, Erik Solheim, Erika Reed, Iris Korsnes, Jan Pettersson, Kamil Kak, Karen Disen, Kari Kolltveit, Lena Rød Sundnes, Lucia Aragon, Maria Viirros, Martine Fossum, Martine Gulliksen, Mathias Wischuf, Mathilda Skoglund, Milton Mondal, Nanna Amstrup, Patricia Risopatron Berg, Patrik Berg, Sally Nordström, Sara Marie Hødnebø, Scott Luther O'Rourke, Sigvei Ringvold, Sissel Johansen, Stella Vallik, Suzanna Øistad, Thomas Iversen, Tiril Schrøder, Veronica Lund, Vibeke Luther O´Rourke, Victoria Browne, Vilma Lundholm Grafikk is committed to the expanded field of printmaking; in the making, exhibiting and publishing of contemporary art. Art and Craft imparts expertise in material and haptic processes, as both formal and tacit knowledge; through fine art undergraduate, postgraduate and doctorate programmes. Oslo National Academy of the Arts is grateful to Academy of Fine Arts Jana Matejki for the opportunity to exhibit artworks by students, staff and alumni in Krakow

Print Matters

Catalogue published on the occasion of the exhibition "Print Matters - Contemporary Constituencies of print 2019" with teachers and students from the Department of Print & Drawing, Oslo National Academy of the Arts. Grafiska Sällskapet, Stockholm November 23 - December 17 2019.publishedVersio

Building a realistic neuronal model that simulates multi-joint arm and hand movements in 3D space

The question as to how the brain controls voluntary movements of the arm and hand still remains largely unsolved despite much research focused on behavioral studies, neurophysiological investigations, and neuronal modeling in computer science. This is because behavioral studies are usually performed without detailed knowledge of the underlying neuronal networks, neurophysiological studies often lack an understanding of the function, and neuronal models are frequently focused on a particular control problem with restricted knowledge of the underlying neuronal networks involved. Therefore, it seems appropriate to start by trying to integrate knowledge of neuronal networks with known function and computer based neuronal models to seek more realistic models that can better control robots or artificial limbs and hands. We propose to combine knowledge of a behavioral model for reaching with the hand toward an object, which is based on detailed knowledge of the underlying neuronal network, and a neuronal model that includes several functional levels, from the planning level via intermediate levels to the final level of control of motoneurons and muscles