@article{stefanic_campbell_russ_stefanic_2020, title={Evaluation of a blended learning approach for cross-cultural entrepreneurial education}, volume={57}, ISSN={["1470-3300"]}, DOI={10.1080/14703297.2019.1568901}, abstractNote={ABSTRACT This paper explores students’ perceptions of an experimental, cross-cultural entrepreneurial blended learning course. This course, developed jointly by North Carolina State University and Josip Juraj Strossmayer University, Croatia, employed a variety of face-to-face and technology-based approaches to facilitate cross-cultural teaching. The impact of socioeconomic status on participants’ satisfaction with the course is also investigated. This study also clarifies that active learning and new roles for teachers and students in a cross-cultural perspective setting are possible between a western setting and east European countries. The study found that teachers need to focus not only on the technical aspects of course delivery, but must also seek to understand students’ expectations and perceptions as well as support student learning across the whole course. Instructors, interaction with peers, and overall course design and organization play an important role in student satisfaction.}, number={2}, journal={INNOVATIONS IN EDUCATION AND TEACHING INTERNATIONAL}, author={Stefanic, Ivan and Campbell, Ronald K. and Russ, John S. and Stefanic, Edita}, year={2020}, month={Mar}, pages={242–254} } @article{li_bucholz_peterson_reich_russ_brenner_2017, title={How predictable is plastic damage at the atomic scale?}, volume={110}, number={9}, journal={Applied Physics Letters}, author={Li, D. and Bucholz, E. W. and Peterson, G. and Reich, B. J. and Russ, J. C. and Brenner, D. W.}, year={2017} } @article{russ_2015, title={Image Analysis of Foods}, volume={80}, ISSN={["1750-3841"]}, DOI={10.1111/1750-3841.12987}, abstractNote={Abstract}, number={9}, journal={JOURNAL OF FOOD SCIENCE}, author={Russ, John C.}, year={2015}, month={Sep}, pages={E1974–E1987} } @book{russ_2011, title={The image processing handbook}, publisher={Boca Raton: CRC Press}, author={Russ, John C.}, year={2011} } @article{collins_welk_searles_tiley_russ_fraser_2009, title={Development of methods for the quantification of microstructural features in alpha plus beta-processed alpha/beta titanium alloys}, volume={508}, ISSN={["0921-5093"]}, DOI={10.1016/j.msea.2008.12.038}, abstractNote={A set of stereological procedures has been developed for the rigorous quantification of microstructural features resolvable using scanning electron microscopy in α + β-processed α/β titanium alloys. This paper identifies the four microstructural features that most likely influence the mechanical properties in α + β-processed titanium alloy, including: the size of the equiaxed alpha, the volume fraction of the equiaxed alpha, the volume fraction of total alpha, and the thickness of the Widmanstätten alpha laths. The details regarding the quantification methodologies are provided, as are the origins of the associated uncertainties.}, number={1-2}, journal={MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING}, author={Collins, P. C. and Welk, B. and Searles, T. and Tiley, J. and Russ, J. C. and Fraser, H. L.}, year={2009}, month={May}, pages={174–182} } @book{russ_2007, title={The image processing handbook}, ISBN={0849372542}, publisher={Boca Raton: CRC/Taylor and Francis}, author={Russ, J. C.}, year={2007} } @book{russ_2005, title={Image analysis of food microstructure}, ISBN={0849322413}, publisher={Boca Raton, LA: CRC Press}, author={Russ, J. C.}, year={2005} } @article{tiley_searles_lee_kar_banerjee_russ_fraser_2004, title={Quantification of microstructural features in alpha/beta titanium alloys}, volume={372}, ISSN={["1873-4936"]}, DOI={10.1016/j.msea.2003.12.008}, abstractNote={Mechanical properties of α/β Ti alloys are closely related to their microstructure. The complexity of the microstructural features involved makes it rather difficult to develop models for predicting properties of these alloys. Developing predictive rules-based models for α/β Ti alloys requires a huge database consisting of quantified microstructural data. This in turn requires the development of rigorous stereological procedures capable of quantifying the various microstructural features of interest imaged using optical and scanning electron microscopy (SEM) micrographs. In the present paper, rigorous stereological procedures have been developed for quantifying four important microstructural features in these alloys: thickness of Widmanstätten α laths, colony scale factor, prior β grain size, and volume fraction of Widmanstätten α laths.}, number={1-2}, journal={MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING}, author={Tiley, J and Searles, T and Lee, E and Kar, S and Banerjee, R and Russ, JC and Fraser, HL}, year={2004}, month={May}, pages={191–198} } @book{russ_2001, title={Forensic uses of digital imaging}, ISBN={0849309034}, DOI={10.1201/9781420041477}, abstractNote={From the Publisher: "Forensic Uses of Digital Imaging shows step-by-step how to use digital imaging to its best advantage. Written by the author of the best-selling Image Processing Handbook, it uses numerous examples to explore when and why some procedures are appropriate and what they can be expected to reveal. It demonstrates just what the advantages and shortcomings of digital imaging are and how computer image processing can be used to enhance the ability to access detail without compromising the truth of images." "Practitioners will learn how to testify about their procedures and results in simple, precise language. Counsel will discover appropriate avenues for questioning to bring forth such explanations, and how to challenge witnesses who may confuse or mislead juries with wrong information or opinions."--BOOK JACKET.}, publisher={Boca Raton: CRC Press}, author={Russ, J. C.}, year={2001} } @book{russ_dehoff_2000, title={Practical stereology (2nd ed.)}, ISBN={0306464764}, DOI={10.1007/978-1-4615-1233-2}, publisher={New York: Kluwer Academic/Plenum}, author={Russ, J. C. and Dehoff, R. T.}, year={2000} } @misc{russ_russ_2000, title={Stereo pair displays of surface range images}, volume={199}, ISSN={["0022-2720"]}, DOI={10.1046/j.1365-2818.2000.00711.x}, abstractNote={sir, a recent paper by Smith et al. (1999) in this journal demonstrated the utility of anaglyph stereo images for viewing surface range images such as those produced by the atomic force microscope (AFM). We feel that it is also useful to point out some additional ways in which stereo views can be employed to enhance the visualization of such surface images. Images in which the pixel grey scale value encodes elevation information (variously called surface images, range images or elevation maps) are produced by many techniques, including the use of AFM and its cousins, scanned stylus metrology instruments, interference microscopes, and even side-scanned radar and structured light techniques. Human visual recognition is not very sensitive to small changes in grey scale intensity and so we have difficulty in interpreting these images when viewed in their raw form. Methods such as contour mapping and pseudocolour rendition are sometimes used as an aid but tend to break up the overall gestalt of the image even as they reveal local variations. Simple derivative images, also widely used, tend to obscure the actual elevation information and hide details in some orientations. Surface rendering provides a tool that presents these surfaces as a human expects surfaces to appear, with lighting and surface specularity that can be adjusted to vary the appearance in useful ways (Bui-Tuong, 1975; Foley & Van Dam, 1984) (Fig. 1). Computing a red±cyan anaglyph image in which disparity is proportional to elevation produces a stereo pair view that is also helpful in many cases, and can be made more so in combination with rendering (Fig. 2). However, the point of view is still restricted to the surface normal, whereas in examining real surfaces people are able to orientate the sample to view it from various directions. We find it helpful therefore to combine surface rendering, colour coding and stereo viewing possibilities with perspective-corrected isometric views of the surfaces (Fig. 3). These present very realistic images that enable the human vision system to extract key morphological parameters and recognize features on surfaces. All of the calculations for these operations are well known, based on analytical geometry and rendering methods widely used in computer-aided design software, and have been implemented in various software packages. Our contribution has been to write the algorithms as a set of plug-in modules that can be used with Adobe Photoshope and compatible programs (which include NIH-Image, Image-Pro Plus and other}, journal={JOURNAL OF MICROSCOPY}, author={Russ, JC and Russ, JC}, year={2000}, month={Aug}, pages={87–89} } @book{russ_1998, title={The image processing handbook}, ISBN={0849325323}, publisher={Boca Raton, FL: CRC Press}, author={Russ, J. C.}, year={1998} } @book{russ_1996, title={Materials science: A multimedia approach}, ISBN={0534957366}, author={Russ, J. C.}, year={1996} } @book{russ_1994, title={Fractal surfaces}, DOI={10.1007/978-1-4899-2578-7}, publisher={New York: Plenum Press}, author={Russ, John C.}, year={1994} } @book{russ_1992, title={The image processing handbook}, ISBN={0849342333}, publisher={Boca Raton, Fla.: CRC Press}, author={Russ, J. C.}, year={1992} } @book{russ._1990, title={Computer-assisted microscopy the measurement and analysis of images}, publisher={New York: Plenum Press}, author={Russ., John C.}, year={1990} }