Dependable Digitally-Assisted Mixed-Signal IPs Based on Integrated Self-Test & Self-Calibration

Heterogeneous SoC devices, including sensors, analogue and mixed-signal front-end circuits and the availability of massive digital processing capability, are being increasingly used in safety-critical applications like in the automotive, medical, and the security arena. Already a significant amount of attention has been paid in literature with respect to the dependability of the digital parts in heterogeneous SoCs. This is in contrast to especially the sensors and front-end mixed-signal electronics; these are however particular sensitive to external influences over time and hence determining their dependability. This paper provides an integrated SoC/IP approach to enhance the dependability. It will give an example of a digitally-assisted mixed-signal front-end IP which is being evaluated under its mission profile of an automotive tyre pressure monitoring system. It will be shown how internal monitoring and digitally-controlled adaptation by using embedded processors can help in terms of improving the dependability of this mixed-signal part under harsh conditions for a long time

Quality Enhancement Themes: the First Year Experience. Curriculum Design for the First Year

This report outlines the work and outcomes of a practice-focused development project 'Curriculum design for the first year'. The project was one of nine funded by the Quality Assurance Agency for Higher Education (QAA) under the First-Year Experience Enhancement Theme of the Scottish quality enhancement agenda. The stages of this curriculum design project included: completing a literature review; running staff workshops to gather and disseminate information; holding student focus groups to gather students, views and experiences of the curriculum; collecting case studies of interest to the sector; and reporting findings to the sector. Key findings from the literature are presented in this report. They include the need to adopt student-centred active learning strategies (Harvey, Drew and Smith, 2006; Oliver-Hoyo and Allen, 2005; Barefoot, 2002) and the importance of providing early formative feedback to students (Davidson and Young, 2005; Barefoot, 2002). Many suggestions for improving learning and teaching strategies have been adopted at module level, but could be implemented strategically across the breadth of a programme curriculum. Kift and Nelson (2005) supported this view and argued that it is equally important to support these principles with systemic university-wide change, including administrative and support programmes that are also integrated with the curriculum and student needs

Redesigning an Undergraduate Software Engineering Course for a Large Cohort

Teaching Software Engineering on an undergraduate programme is challenging, particularly when dealing with large numbers of stu- dents. On one hand, a strong understanding of software and good programming skills are prerequisites. On the other hand, the scale of the projects developed as part of undergraduate programmes do not always make the need for engineering obvious. Encourag- ing teamwork when students have little professional experience also adds to the level of complexity when delivering material. In this paper, we present a study on the redesign of a second year undergraduate course on Software Engineering for a large cohort

CERN openlab Whitepaper on Future IT Challenges in Scientific Research

This whitepaper describes the major IT challenges in scientific research at CERN and several other European and international research laboratories and projects. Each challenge is exemplified through a set of concrete use cases drawn from the requirements of large-scale scientific programs. The paper is based on contributions from many researchers and IT experts of the participating laboratories and also input from the existing CERN openlab industrial sponsors. The views expressed in this document are those of the individual contributors and do not necessarily reflect the view of their organisations and/or affiliates

Cultivating Talent through a Principal Pipeline

This report, the second in a series, describes early results of Wallace's Principal Pipeline Initiative, a multi-year effort to improve school leadership in six urban school districts. The report describes changes in the six districts' practices to recruit, train and support new principals. It also offers early lessons for other districts considering changes to their own principal pipelines

Controlling Curriculum Redesign with a Process Improvement Model

A portion of the curriculum for a Management Information Systems degree was redesigned to enhance the experiential learning of students by focusing it on a three-semester community-based system development project. The entire curriculum was then redesigned to have a project-centric focus with each course in the curriculum contributing to the success of students’ learning experiences. Implementation of this new design involved an evolutional enhancement from an existing traditional curriculum with modifications proceeding in stages over a four-year period. Early on, it was recognized that the curriculum redesign was progressing through a series of stages similar to that encountered in software engineering processes. As a result, the general guidelines and framework developed for continuous improvement in software engineering: the Capability Maturity Model were adopted and modified for guiding the curriculum redesign. This paper presents a description of the authors’ experiences in implementing a curriculum redesign from one based on a traditional course-based design to a project-centric design using the Capability Maturity Model as a process improvement tool. Our successful experience with using this tool suggests a need for the development of a specialized process improvement tool for future use on similar curriculum redesign

THE COLLEGE COMPLETION AGENDA, GUIDED PATHWAYS, AND THE ROLE OF DATA IN INFORMING CHANGE: A CASE STUDY EXAMINING THE USE OF EARLY MOMENTUM METRICS TO ADVANCE STUDENT SUCCESS

The purpose of this qualitative multiple case study was to understand how leaders at two community colleges that participated in Guided Pathways used early momentum metrics (EMMs) to change institutional policies or practices to improve student success and degree completion rates. By focusing on EMMs as short-term indicators, leaders could track the effectiveness of institutional changes for the planning, implementation, and evaluation of Guided Pathways. The results of this study contributed new understanding to how leaders can better use EMMs to shape institutional changes that improve student success. This study provided leaders with tangible examples of EMMs in action and tools for how leaders can be prepared to support their institution to move forward with data-informed decisions around Guided Pathways. This study found that having access to data tools and a strong relationship with Institutional Research was important to develop a culture of inquiry and improve data-informed decision-making. Knowledge and financial resource support aided to streamline the implementation of Guided Pathways and the use of EMMs in practice. EMMs should be used early and often by community college leaders to monitor change on campus and remain focused on helping students achieve success and completion

Utilizing educational technology in computer science and programming courses : theory and practice

There is one thing the Computer Science Education researchers seem to agree: programming is a difficult skill to learn. Educational technology can potentially solve a number of difficulties associated with programming and computer science education by automating assessment, providing immediate feedback and by gamifying the learning process. Still, there are two very important issues to solve regarding the use of technology: what tools to use, and how to apply them? In this thesis, I present a model for successfully adapting educational technology to computer science and programming courses. The model is based on several years of studies conducted while developing and utilizing an exercise-based educational tool in various courses. The focus of the model is in improving student performance, measured by two easily quantifiable factors: the pass rate of the course and the average grade obtained from the course. The final model consists of five features that need to be considered in order to adapt technology effectively into a computer science course: active learning and continuous assessment, heterogeneous exercise types, electronic examination, tutorial-based learning, and continuous feedback cycle. Additionally, I recommend that student mentoring is provided and cognitive load of adapting the tools considered when applying the model. The features are classified as core components, supportive components or evaluation components based on their role in the complete model. Based on the results, it seems that adapting the complete model can increase the pass rate statistically significantly and provide higher grades when compared with a “traditional” programming course. The results also indicate that although adapting the model partially can create some improvements to the performance, all features are required for the full effect to take place. Naturally, there are some limits in the model. First, I do not consider it as the only possible model for adapting educational technology into programming or computer science courses. Second, there are various other factors in addition to students’ performance for creating a satisfying learning experience that need to be considered when refactoring courses. Still, the model presented can provide significantly better results, and as such, it works as a base for future improvements in computer science education.Ohjelmoinnin oppimisen vaikeus on yksi harvoja asioita, joista lähes kaikki tietojenkäsittelyn opetuksen tutkijat ovat jokseenkin yksimielisiä. Opetusteknologian avulla on mahdollista ratkaista useita ohjelmoinnin oppimiseen liittyviä ongelmia esimerkiksi hyödyntämällä automaattista arviointia, välitöntä palautetta ja pelillisyyttä. Teknologiaan liittyy kuitenkin kaksi olennaista kysymystä: mitä työkaluja käyttää ja miten ottaa ne kursseilla tehokkaasti käyttöön? Tässä väitöskirjassa esitellään malli opetusteknologian tehokkaaseen hyödyntämiseen tietojenkäsittelyn ja ohjelmoinnin kursseilla. Malli perustuu tehtäväpohjaisen oppimisjärjestelmän runsaan vuosikymmenen pituiseen kehitys- ja tutkimusprosessiin. Mallin painopiste on opiskelijoiden suoriutumisen parantamisessa. Tätä arvioidaan kahdella kvantitatiivisella mittarilla: kurssin läpäisyprosentilla ja arvosanojen keskiarvolla. Malli koostuu viidestä tekijästä, jotka on otettava huomioon tuotaessa opetusteknologiaa ohjelmoinnin kursseille. Näitä ovat aktiivinen oppiminen ja jatkuva arviointi, heterogeeniset tehtävätyypit, sähköinen tentti, tutoriaalipohjainen oppiminen sekä jatkuva palautesykli. Lisäksi opiskelijamentoroinnin järjestäminen kursseilla ja järjestelmän käyttöönottoon liittyvän kognitiivisen kuorman arviointi tukevat mallin käyttöä. Malliin liittyvät tekijät on tässä työssä lajiteltu kolmeen kategoriaan: ydinkomponentteihin, tukikomponentteihin ja arviontiin liittyviin komponentteihin. Tulosten perusteella vaikuttaa siltä, että mallin käyttöönotto parantaa kurssien läpäisyprosenttia tilastollisesti merkittävästi ja nostaa arvosanojen keskiarvoa ”perinteiseen” kurssimalliin verrattuna. Vaikka mallin yksittäistenkin ominaisuuksien käyttöönotto voi sinällään parantaa kurssin tuloksia, väitöskirjaan kuuluvien tutkimusten perusteella näyttää siltä, että parhaat tulokset saavutetaan ottamalla malli käyttöön kokonaisuudessaan. On selvää, että malli ei ratkaise kaikkia opetusteknologian käyttöönottoon liittyviä kysymyksiä. Ensinnäkään esitetyn mallin ei ole tarkoituskaan olla ainoa mahdollinen tapa hyödyntää opetusteknologiaa ohjelmoinnin ja tietojenkäsittelyn kursseilla. Toiseksi tyydyttävään oppimiskokemukseen liittyy opiskelijoiden suoriutumisen lisäksi paljon muitakin tekijöitä, jotka tulee huomioida kurssien uudelleensuunnittelussa. Esitetty malli mahdollistaa kuitenkin merkittävästi parempien tulosten saavuttamisen kursseilla ja tarjoaa sellaisena perustan entistä parempaan opetukseen