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  • 1.
    Bergstrand, Fredrik
    et al.
    Linköping University, Department of Computer and Information Science.
    French, Kimberley
    Linköping University, Department of Computer and Information Science.
    Geijer Michaeli, Rebecka
    Linköping University, Department of Computer and Information Science.
    Henziger, Eric
    Linköping University, Department of Computer and Information Science.
    Johansson, Oscar
    Linköping University, Department of Computer and Information Science.
    Kumpulainen, Robert
    Linköping University, Department of Computer and Information Science.
    Rönmark, Erik
    Linköping University, Department of Computer and Information Science.
    Tennivaara, Kristoffer
    Linköping University, Department of Computer and Information Science.
    Tranell, Victor
    Linköping University, Department of Computer and Information Science.
    Interaktiv programmiljö för kryptoanalys2016Independent thesis Basic level (degree of Bachelor), 10 credits / 15 HE creditsStudent thesis
    Abstract [sv]

    Det är sedan länge känt, både bland företag och i den akademiska världen, att det krävs strukturerade arbetsmetoder för att lyckas med storskalig programvaruutveckling. Vilka metoder som fungerar bäst är det svårt att göra ett generellt uttalande om eftersom detta till stor del är situationsberoende. Det existerar en ansenlig mängd metoder och processer som finns beskrivna i detalj av deras förespråkare, men ingen metod fungerar felfritt i alla situationer. I den här rapporten beskrivs de metoder en projektgrupp tillämpade under ett kandidatarbete i programvaruutveckling, och konsekvenserna dessa fick för den slutgiltiga produkten.

    Gruppen har kommit fram till att värde har skapats för kunden genom att implementera kundens begärda system, en interaktiv webbapplikation. Underhållbarhet har uppnåtts genom att följa en kodstandard, tillämpa parprogrammering och kodgranskningar samt publicera koden som öppen källkod. Att under möten diskutera gruppmedlemmarnas välmående bidrog till bättre sammanhållning och stämning och därmed ett bättre slutresultat. Många av gruppens svårigheter hade lösts om gruppen haft ett dedikerat kontor.

    Förhoppningen är att de erfarenheter och den kunskap som gruppen tillgodogjort sig under projektet, och dokumenterat i den här rapporten, ska komma till nytta för både projektmedlemmarna och rapportens läsare.

  • 2.
    French, Kimberley
    Linköping University, Department of Computer and Information Science, Software and Systems.
    Energy Consumption of In-Vehicle Communication in Electric Vehicles: A comparison between CAN, Ethernet and EEE2019Independent thesis Advanced level (degree of Master (Two Years)), 20 credits / 30 HE creditsStudent thesis
    Abstract [en]

    As a step towards decreasing the greenhouse gas emissions caused by the transport sector, electrical vehicles (EVs) have become more and more popular. Two major problem areas the EV industry is currently facing are range limitations, i.e. being restricted by the capacity of the battery, as well as a demand for higher bandwidth as the in-vehicle communication increases. In this thesis, an attempt is made to address these problem areas by examining the energy consumption required by Controller Area Network (CAN) and Ethernet. In addition, the effects of Energy-Efficient Ethernet (EEE) are reviewed. The protocols are examined by performing a theoretical analysis over CAN, Ethernet and EEE, physical tests over CAN and Ethernet, as well as simulations of EEE. The results show that Ethernet requires 2.5 to four times more energy than CAN in theory, and 4.5 to six times more based on physical measurements. The energy consumption of EEE depends on usage, ranging from energy levels of 40 \% less than CAN when idle, and up to equal amounts as regular Ethernet at high utilisation. By taking full advantage of the traits of Time-Sensitive Networking, EEE has the potential of significantly decreasing the amount of energy consumed compared to standard Ethernet while still providing a much higher bandwidth than CAN, at the cost of introducing short delays. This thesis provides insight into the behaviour of a transmitter for each of the three protocols, discusses the energy implications of replacing CAN with Ethernet and highlights the importance of understanding how to use Ethernet and EEE efficiently.

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