Exploring perceptions and attitudes towards teaching and learning manual technical drawing in a digital age

This paper examines the place of manual technical drawing in the 21st century by discussing the perceived value and relevance of teaching school students how to draw using traditional instruments, in a world of computer aided drafting (CAD). Views were obtained through an e-survey, questionnaires and structured interviews. The sample groups represent professional CAD users (e.g. engineers, architects); university lecturers; Technology Education teachers and student teachers; and school students taking Scottish Qualification Authority (SQA) Graphic Communication courses. An analysis of these personal views and attitudes indicates some common values between the various groups canvassed of what instruction in traditional manual technical drafting contributes towards learning. Themes emerge such as problem solving, visualisation, accuracy, co-ordination, use of standard conventions, personal discipline and artistry. In contrast to the assumptions of Prensky's thesis (2001a&b) of digital natives, the study reported in this paper indicate that the school students apparently appreciate the experience of traditional drafting. In conclusion, the paper illustrates the perceived value of such learning in terms of transferable skills, personal achievement and enjoyment

Towards Smarter Management of Overtourism in Historic Centres Through Visitor-Flow Monitoring

Historic centres are highly regarded destinations for watching and even participating in diverse and unique forms of cultural expression. Cultural tourism, according to the World Tourism Organization (UNWTO), is an important and consolidated tourism sector and its strong growth is expected to continue over the coming years. Tourism, the much dreamt of redeemer for historic centres, also represents one of the main threats to heritage conservation: visitors can dynamize an economy, yet the rapid growth of tourism often has negative effects on both built heritage and the lives of local inhabitants. Knowledge of occupancy levels and flows of visiting tourists is key to the efficient management of tourism; the new technologies—the Internet of Things (IoT), big data, and geographic information systems (GIS)—when combined in interconnected networks represent a qualitative leap forward, compared to traditional methods of estimating locations and flows. A methodology is described in this paper for the management of tourism flows that is designed to promote sustainable tourism in historic centres through intelligent support mechanisms. As part of the Smart Heritage City (SHCITY) project, a collection system for visitors is developed. Following data collection via monitoring equipment, the analysis of a set of quantitative indicators yields information that can then be used to analyse visitor flows; enabling city managers to make management decisions when the tourism-carrying capacity is exceeded and gives way to overtourism.Funded by the Interreg Sudoe Programme of the European Regional Development Funds (ERDF

The sweet smell of success: Enhancing multimedia applications with olfaction

This is the Post-Print version of the Article. The official published version can be accessed from the link below - Copyright @ 2012 ACMOlfaction, or smell, is one of the last challenges which multimedia applications have to conquer. As far as computerized smell is concerned, there are several difficulties to overcome, particularly those associated with the ambient nature of smell. In this article, we present results from an empirical study exploring users' perception of olfaction-enhanced multimedia displays. Findings show that olfaction significantly adds to the user multimedia experience. Moreover, use of olfaction leads to an increased sense of reality and relevance. Our results also show that users are tolerant of the interference and distortion effects caused by olfactory effect in multimedia

Modelling 3D product visualization on the online retailer

-Purpose: An emerging body of research has investigated telepresence and presence notions in online retailers’ websites during the past two decades. Since that time considerable research has been published in different fields to explain the meanings and applications of these notions. This study aims to investigate the antecedents and consequences of 3D product simulation telepresence and the effects of the consequences on consumers’ behavioural intentions on the online retailer Website. -Design/methodology/approach: this study developed a retailer Website in which a variety of laptops are presented by using 3D product visualizations. This research used a within-subjects design and employed two laboratory experiments. In the first experiment, a two-way repeated measure ANOVA was conducted to determine the effects of the manipulated conditions on the dependent variable (i.e., 3D telepresence). Finally, we used Amos 16 to test the overall goodness of fit of the proposed conceptual model. -Originality/values: To the best of the authors’ knowledge, this research is the first in the UK that used a UK sample to investigate the effects of using 3D product visualization in an electrical industry (i.e., laptops) on consumers’ experiences. Secondly, this paper merged constructs from the human-computer-interaction (HCI) field (i.e., control, vividness and telepresence) to the proposed model. Moreover, the way this paper defines interactivity and telepresence adds value to this study. Thirdly, we developed new scales to measure telepresence and control constructs to suit consumers’ experience in the online retailer context. Finally, the design of this study is original in using a website that contains 3D product visualization with both utilitarian and hedonic values. -Findings: The manipulation checks showed that high control and animation provides most effective representation of telepresence. The overall goodness of fit of the conceptual model met the standards and showed that all the hypothesized paths were valid

Efficient separation of small microparticles at high flowrates using spiral channels: Application to waterborne pathogens

Detecting waterborne pathogens is a challenging task because of their low concentration in water and their wide diversity. In order to ease this detection process, the potential of microfluidics is investigated in this paper. Spiral channels are designed for separating particles, in a single device and without any external forces or additional buffer, depending on their size at high flowrates. This paper focuses first on the impact of the channel length, flowrate, particle concentration and size on the separation efficiency of polystyrene beads of relevant sizes . The system is then tested with viable and non-viable pathogens (Cryptosporidium parvum  ) with an average size around