113,812 research outputs found

    Forensic course development

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    In recent years, digital technology has experienced dramatic growth. Many of these advances have also provided malicious users with the ability to conceal their activities and destroy evidence of their actions. This has raised the need of developing specialists in computer digital forensics -- the preservation, identification, extraction and documentation of evidence stored in the form of digitally encoded information (data). In this paper, we present the procedures and rationale used in the development of forensic courses at both the undergraduate and the graduate levels. We also demonstrate our decision making process of selecting topics included in each course

    Specialisation within specialisation? Thoughts on the content of contemporary forensic psychology programs

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    This paper provides details of, and the rationale for, a Doctorate of Forensic Psychology recently developed at Deakin University, Melbourne, Australia. The course prioritises training in psycho-legal issues with children and young people. In discussing this program, the presenters identify two issue  that guided the development of the program. The first concerns the need to delineate forensic content from that in clinical programs, while still maintaining appropriate focus on the skills needed to work effectively in forensic settings. The second addresses the need for courses to acknowledge the marked diversity among forensic clientele and to develop competencies that lead to effective work practices with these sub-groups. In constructing the Deakin forensic program, it was noted that forensic psychologists required an increasing degree of expertise in the procedural and substantive aspects of the legal system. The authors propose that as forensic psychology gains momentum as a discrete area of expertise, there is an increasing need for practitioners to have a sound understanding of the legal institutions and practices they work under, as well as being able to apply specialist knowledge to particular sub-groups. This paper discusses these issues, and outlines how the authors sought to address them in their course curriculum

    Forensic Accounting at BGSU: A Proposal

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    Forensic accounting is a field utilizing accounting and investigative knowledge to detect and examine financial fraud. There is growing demand for professionals in the field. Currently Bowling Green State University (BGSU) does not offer a forensic accounting course. To determine if introducing a forensic accounting to BGSU is appropriate at this time, I have researched other accounting programs and forensic accounting courses. I have also conducted surveys of Schmidthorst College of Business students and faculty as well as forensic accounting professionals to determine if implementing a forensic accounting course would be beneficial to the university and to students. Based on this research, I have determined that students are interested in a forensic accounting course and the course would be beneficial to accounting students. Using the information gathered, I utilized evidence-based curriculum development to design undergraduate and graduate-level curriculum to be implemented for an effective forensic accounting course at Bowling Green State University

    Training Forensic Graduate Assistants: A Development Course

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    We have created a course which is geared towards helping the forensic graduate assistant. The focus of the course is the role of the individual events assistant; however, changes can made to adapt to an assistant who helps with a debate or combined forensics program. A suggested course outline is offered, as well as specific information and activities pertaining to the basic areas of study within the course. Following this, further suggestions and considerations offered

    Formal Education and Forensic Accounting Development in Nigeria

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    This study examined formal education and forensic accounting development in Nigeria with cross-sectional survey design as its research strategy. Questionnaire administered on relevant accounting students and responses analysed with both Pearson product moment correlation and multiple regression. Findings indicated that significantly relationship existed between formal educations, methods (traditional, classical and modern) of integrating forensic accounting into accounting curriculum and forensic accounting development in the country with 0.625, 0.618, 0.639 and 0.521(P-value<0.05) respectively. Also, there is a significant effect of formal education and methods (traditional, classical and modern) of integrating forensic accounting into accounting curriculum of 43.6%, 8.1%, 49.5% and 14.7% (p-value<0.05) respectively on forensic accounting development in Nigeria. Formal education is vital to the development of forensic accounting practices in Nigeria. Academicians and practitioners should regularly update their knowledge on forensic accounting in terms of research and developmental courses so as to ensure continual development of forensic accounting practices in the country. Classical methods should be used by academic institutions in the introduction of forensic accounting into academic curriculums as it indicated the highest impact on forensic accounting development among the three methods of integrating a course into the curriculum

    Crime Investigation: A Course in Computer Forensics

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    The growing amount of crime, such as corporate frauds and virus attacks, in the last two decades highlights not only the importance of computer forensics in crime investigations but also the lack of forensic specialists in this area. An urgent need exists for universities to provide courses on computer forensics to ease the shortage of forensic specialists. This paper proposes a six-dimensional knowledge model for computer forensic courses. The six dimensions include categories of crime, computer technology, security, legislation, investigation process, and forensic tools. The paper describes in detail how the model was implemented in a postgraduate introductory computer forensic course. A brief summary of the lessons learned by the author in the course development and delivery is also presented

    Developing an Information Literacy-Intensive Forensic Science Course

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    American Academy of Forensic Sciences 2018 Poster PresentationThe goal of this presentation is to demonstrate a model where forensic science educators can utilize resources at university libraries to promote scientific information literacy and lifelong learning strategies for their forensic science students that they can continue to use in their professional forensic careers. This presentation will impact the forensic science community by highlighting the benefits of forensic science faculty collaborating with subject specialist academic librarians to produce a course filling a gap in the education of future forensic science practitioners. This course facilitates the development of productive search strategies and how different types of scientific research and legal materials are relevant to various forensic science disciplines. This collaboration has demonstrated a need for promoting information literacy, specifically for open-access materials, on forensic science information to these students so that once they graduate they still can acquire the valuable information necessary for their job. As a result of this research, the researchers saw a need to expand this information literacy beyond the classroom and acquired National Institute of Justice (NIJ) funding to allow for the development of these materials as modules to be used by practitioners in crime laboratories to enhance available resources for their use. Forensic science is a multi-faceted field including expertise from a variety of disciplines. A challenge for creating a college course to address skills to develop information literacy competencies and encourage lifelong learning for future practitioners is covering those diverse disciplines. This presentation will detail how librarians at Texas A&M University developed a junior-level forensic science seminar in collaboration with a forensic science faculty member to meet the research needs of students in the forensic sciences program. The learning outcomes of this class include teaching students to describe problem-solving principles, organize typical operational protocols, recognize the scientific basis and application of tools and techniques in forensic science, compare capabilities and limitations, and to summarize and illustrate current scientific, ethical, and legal issues. The presenters will detail the steps taken to create six separate information literacy-intensive classes, including the development of the assignments, and how feedback was provided to the students. These classes included sessions on dissecting scholarly articles and case law, as well as classroom discussions to teach students how to use the structure of research articles and case law to easily evaluate information. By creating this information literacy course, instructors were able to better prepare students for their program’s research intensive courses with the amount of detail required that cannot be covered in a traditional one hour library instruction session. Such skills will be of value when working in forensic science fields and the need arrives for locating similar resources in relation to casework. Additionally, the presentation will address issues raised in class, such as open access, database access, and evaluation of science and legal materials, which helps the students translate current school work to their future careers. To further this concept of information literacy, as previously mentioned, the researchers received NIJ funding to determine how forensic scientist locate and evaluate information and to create educational materials aimed at enhancing these skills and increase awareness of other valuable informational resources. Locating and evaluating high-quality forensic science literature will help forensic scientists engage in quality science practices. Results from this class, which is now in its third year of evaluation, show that students who take this preparatory course are better prepared for conducting meaningful research for their writing-intensive senior-level classes both in their abilities to find relevant materials and how to utilize and cite these materials. Graduating students who go on to graduate or law school have also reported back that taking this course gave them a foundation for which to build on in their advanced studies.Grant funding provided by the National Institute of Justice, Office of Justice Programs, the United States Department of Justice through 2016-R2-CX-0054. Points of view in this document are those of the authors and do not necessarily represent the official position or policies of the United States Department of Justice

    Integration of multimedia technology into the curriculum of forensic science courses using crime scene investigations.

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    Virtual reality technology is a powerful tool for the development of experimental learning in practical situations. Creation of software packages with some element of virtual learning allows educators to broaden the available experience of students beyond the scope that a standard curriculum provides. This teaching methodology is widely used in the delivery of medical education with many surgical techniques being practised via virtual reality technologies (see Engum et al., 2003). Use has been made of this technology for a wide range of teaching applications such as virtual field trials for an environmental science course (Ramasundaram et al., 2005), and community nursing visiting education scenarios (Nelson et al., 2005) for example. Nelson et al. (2005) imaged three-dimensional representations of patient living accommodation incorporating views of patient medication in order to deliver care modules via a problem-based learning approach. The use of virtual reality in the teaching of crime scene science was pioneered by the National Institute of Forensic Science in Australia as part of their Science Proficiency Advisory Committee testing programme. A number of scenarios were created using CDROM interfacing, allowing as near as possible normal procedures to be adopted. This package included proficiency testing integrated into the package and serves as a paradigm for the creation of virtual reality crime scene scenarios (Horswell, 2000). The package is commercially available on CD-ROM as part of the series ‘After the Fact’ (http://www.nfis.com.au). The CD-ROM package is geared to proficiency training of serving scenes of crime officers and thus contains details that may not be needed in the education of other parties with a need for forensic awareness. These include undergraduate students studying towards forensic science degree programmes in the UK as well as serving Police Officers. These groups may need virtual reality crime scene material geared to their specific knowledge requirements. In addition, Prof J Fraser, President of the Forensic Science Society and a former police Scientific Support Manager, speaking to the United Kingdom, House of Commons Science and Technology Select Committee in its report ‘Forensic Science on Trial’ (2005) states: ‘The documented evidence in relation to police knowledge of forensic science, in terms of making the best use of forensic science, is consistently clear, that their knowledge needs to improve and therefore their training needs to improve’. This clearly identifies a need for further training of serving police officers in forensic science. It was with this in mind that staff at the University collaborated with the West Midlands Police Service. The aim was to create a virtual reality CD-ROM that could serve as part of the continuing professional development of serving police officers in the area of scene management. Adaptation of the CD-ROM could allow some introductory materials to help undergraduate students of forensic science
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