Relevant bibliographies by topics / Information Systems Development Methodologies

Academic literature on the topic 'Information Systems Development Methodologies'

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Published: 4 June 2021
Last updated: 21 February 2023

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Journal articles on the topic "Information Systems Development Methodologies"

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Avison, D. E., H. U. Shah, R. S. Powell, and P. S. Uppal. "Applying methodologies for information systems development." Journal of Information Technology 7, no. 3 (September 1992): 127–40. http://dx.doi.org/10.1057/jit.1992.19.

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Avison, D. E., H. U. Shah, R. S. Powell, and P. S. Uppal. "Applying Methodologies for Information Systems Development." Journal of Information Technology 7, no. 3 (September 1992): 127–40. http://dx.doi.org/10.1177/026839629200700302.

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Many organizations develop their information systems without the use of any information systems development methodology. However, even when organizations identify the need for the use of such methodologies, it is not always obvious which to use, or whether a blended combination might be appropriate. Further, in using either stand-alone or blended information systems development methodologies in practice, a number of difficulties are encountered. This paper discusses the use of an information systems development methodology which consisted of a blend of other methodologies in a real-world situation (a large telecommunications company) where no formal methodology had been used previously. A number of difficulties arose in practice, some of which were not anticipated. Examples are given of the types of difficulty encountered, and these fell into three broad categories: those related to the deficiencies in the design techniques and tools themselves; those related to implementing the system from the design; and those related to the particular environment.
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Pícka, M. "Metamodeling and development of information systems." Agricultural Economics (Zemědělská ekonomika) 50, No. 2 (February 24, 2012): 65–70. http://dx.doi.org/10.17221/5168-agricecon.

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Metamodeling is becaming an important part of information systems development. When metamodeling we are working with metamodel which define the syntax and the semantics of models. There are a lot of standards for definition of metamodel e.g. COMMA, GOPRR, MOF. Metamodeling is used for defining and creating of new methodologies, their implementation into CASE and metaCASE tools. Metamodeling is used for manipulation of data and metadata and for optimalization of information’s system design with utilization of generic models. The aims of this article are: to discusse fundamental concepts of metamodeling, demonstrate some theoretically and practically important meta-metamodels and to position metamodeling principles in the development of information systems.
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Westrup, Christopher. "Information Systems Methodologies in Use." Journal of Information Technology 8, no. 4 (December 1993): 267–75. http://dx.doi.org/10.1177/026839629300800407.

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Research into information systems development (ISD) methodologies is generally restricted to the creation or elaboration of methodologies or the provision of CASE support. This paper proposes that a fruitful area of research, which will provide insights into the effectiveness of ISD methodologies, must centre on the observation of the practice of systems developers, users and managers, and the study of methodologies in use. Such a programme requires certain techniques, ideally longitudinal ethnographic case studies. Preliminary results from a couple of case studies indicate that ISD methodologies are not used as prescribed but this does not necessarily prevent the successful completion of development projects.
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Wynekoop, Judy L., and Nancy L. Russo. "Systems development methodologies: unanswered questions." Journal of Information Technology 10, no. 2 (June 1995): 65–73. http://dx.doi.org/10.1057/jit.1995.9.

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Wynekoop, Judy L., and Nancy L. Russo. "Systems Development Methodologies: Unanswered Questions." Journal of Information Technology 10, no. 2 (June 1995): 65–73. http://dx.doi.org/10.1177/026839629501000209.

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Despite over a decade of study, little is really known about information systems development and the use of systems development methodologies. There has been little evaluation of methodologies in use or examination of the selection, development, adaptation or use of methodologies in practice. This paper discusses this lack of knowledge and its ramifications for research and practice.
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Walters, S. A., J. E. Broady, and R. J. Hartley. "A Review of Information Systems Development Methodologies." Library Management 15, no. 6 (September 1994): 5–19. http://dx.doi.org/10.1108/01435129410067331.

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Sakthivel, Sachidanandam. "Methodological Requirements for Information Systems Development." Journal of Information Technology 7, no. 3 (September 1992): 141–48. http://dx.doi.org/10.1177/026839629200700303.

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A systems development methodology is a collection of procedures, tools, and techniques to develop computer based information systems. To develop better information systems, research studies have suggested several requirements for these methodologies. These requirements may not be equally important for practitioners. Identification of their importance for practitioners can guide researchers to solve practical issues in systems development. It will also be useful to evaluate and compare various methodologies. A study in which theoretical requirements were presented to practitioners for evaluation is presented and its findings described.
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Michalec, Lukasz, and David Banks. "Information Systems Development Methodologies and all that Jazz." Issues in Informing Science and Information Technology 1 (2004): 0227–35. http://dx.doi.org/10.28945/733.

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H. Zaied, Abdel Nasser, Samah Ibrahim Abdel Aal, and Mohamed Monir Hassan. "Rule-based Expert Systems for Selecting Information Systems Development Methodologies." International Journal of Intelligent Systems and Applications 5, no. 9 (August 1, 2013): 19–26. http://dx.doi.org/10.5815/ijisa.2013.09.03.

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Dissertations / Theses on the topic "Information Systems Development Methodologies"

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Patel, V. "A framework for evaluating information systems development methodologies." Thesis, London South Bank University, 1987. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.378945.

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Jonasson, Ingi. "Developing the Information Systems of Tomorrow : competencies and methodologies." Thesis, University of Skövde, Department of Computer Science, 2000. http://urn.kb.se/resolve?urn=urn:nbn:se:his:diva-493.

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Information systems are getting more and more multimedia-based as well as network-based. This evolution, as well as an increased rate of change, put new demands on methods and competencies required for developing future information systems. In this work, we give an overview of the different types of information systems and methods for information systems development, especially with respect to multimedia aspects. Multimedia systems development is discussed particularly with respect to the dual processes of software engineering and content development. Possible future directions are pointed out, in which information systems development seems to become an even more multidisciplinary effort. As a result we present a list of competencies required for multimedia information systems development as well as possible research areas of interest. These research areas cover the following issues regarding the development of multimedia information systems: project management, conceptual modelling, content maintenance, requirement treatment and development approaches.

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Asprey, Leonard Gregory. "An extension to system development methodologies for successful production imaging systems." Thesis, Queensland University of Technology, 2000.

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Tan, Kia Miang Richard. "Application of information systems development methodologies to business process reengineering." Thesis, Henley Business School, 2000. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.302576.

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Zetterlund, Marie. "Infology : a study to identify possible elements of infology in some system development methodologies." Thesis, University of Skövde, Department of Computer Science, 1999. http://urn.kb.se/resolve?urn=urn:nbn:se:his:diva-402.

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The purpose of this work is to identify possible elements of infology in some systems development methodologies. To reach the aim two objectives were identified: to gain an understanding of the concept of infology and secondly to study different kinds of methodologies and analyse them to find out possible elements of infology. In order to reach the aim of this work a literature study was performed. Four methodologies were chosen for the analysis and the selection represented a wide range of different methodologies. They were: Soft Systems Methodology (SSM), Effective Technical and Human Implementation of Computer based Systems (ETHICS), Structured Systems Analysis and Design Method (SSADM) and Yourdon Systems Method (YSM). The infological approach has been characterised and the fundamental characteristic of infology is the distinction between data and information. A consequence from this distinction is that the users of the intended information system should participate in the developing process in order to understand the complex and dynamic relations in an organisation and information system. The results of this work have shown that the soft methodologies (SSM and ETHICS) have a high degree of infology and the more hard methodologies (SSADM and YSM) have a low degree of infology.

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Conradie, Pieter Wynand. "The use and effectiveness of information system development methodologies in health information systems / Pieter Wynand Conradie." Thesis, North-West University, 2010. http://hdl.handle.net/10394/4277.

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Abstract The main focus of this study is the identification of factors influencing the use and effectiveness of information system development methodologies (Le., systems development methodologies) in health information systems. In essence, it can be viewed as exploratory research, utilizing a conceptual research model to investigate the relationships among the hypothesised factors. More specifically, classified as behavioural science, it combines two theoretical models, namely the Unified Theory of Acceptance and Use of Technology and the Expectancy Disconfirmation Theory. The main aim of behavioural science in information systems is to assist practitioners (Le., social actors) in improving business processes and competitiveness, thus the effective use of information systems. A wider view of behavioural science incorporates other social actors (e.g., end users) and organisational actors (e.g., executives). In health information systems, the effective use of information systems is especially relevant Health information systems are vital in the area of health care, since only by having access to pertinent health information, can the correct decisions relating to diagnostics and curative procedures be made. The use of systems development methodologies in health information systems development is therefore crucial, since they can make the development process more effective, while improving software quality. By empirically evaluating the conceptual research model, utilizing a survey as the main research method and structural equation modelling as the main statistical technique, meaningful results were obtained. Focussing on the factors influencing the individual's behavioural intent, it was found that the compatibility of systems development methodologies to the developer's pre-existing software development style is vital. Furthermore, performance expectancy, self-efficacy, organisational culture, policies, customer influence, voluntariness and facilitating conditions, all directly influenced the use of systems development methodologies, with policies and customer influence playing a significant role, especially in relation to health information systems. No significant direct effects or indirect effects could be established for the factors effort expectancy, personal innovativeness and social influence. It appears that individuals working in the health care software development discipline are more autonomous, less influenced by others. Also, the lack of support for the factor effort expectancy may indicate that systems development methodologies have entered a mature state, with less concern on the effort required for use. Furthermore, with regard to effectiveness and the continued use of information systems methodologies, satisfaction had a significant direct effect, with confirmation having a significant indirect effect. Keywords: behavioural science; conceptual research model; direct effect; exploratory research; Expectancy Disconfirmation Theory; indirect effect; Unified Theory of Acceptance and Use of Technology; structural equation modelling; survey; systems development methodologies.
Thesis (Ph.D. (Computer Science))--North-West University, Potchefstroom Campus, 2010.
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Shaikh, M. U. "The analysis and comparison of system development methodologies in software engineering." Thesis, University of Liverpool, 1986. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.233888.

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Norman, Ronald Jules. "Integrated development environments in support of information systems design methodologies and systems analysts' productivity." Diss., The University of Arizona, 1987. http://hdl.handle.net/10150/184275.

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Integrated development environment products, called CASE technology by practitioners, are being purchased by enterprises to assist systems analysts with the analysis and design of information systems. This work surveys users of a commercially available CASE product. Ninty-one users from 47 enterprises in the U.S. and Canada responded to the personal computer based survey. This work analyses the perceptions of the respondents in an attempt to determine productivity improvement over manual methods. Using the perceptions of the respondents, the component parts of the CASE product were rank ordered in terms of improved productivity. In addition to this, a psychometric preference scaling method was used to interpret the relatedness of the component parts to each other, again based on the perceptions of the respondents.
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Shawa, Willie Chiputu. "An ontology for information system development methodologies / W.C. Shawa." Thesis, North-West University, 2009. http://hdl.handle.net/10394/4914.

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As more organisations are expanding in their operations, there has been a strong emphasis on investing in Information Systems (IS). To ensure successful deployment of IS, software developers are advised to apply Information Systems Development Methodologies (ISDMs). The ISDMs provide a systematic approach to development of IS and ensure efficient use of resources during the development process. The stakeholders conducting the software development usually face problems communicating Systems Development (SD) terminologies. The software developers inconsistently use the SD terminologies during software development. Recently a new concept called ontology has been gaining a lot of popularity in Artificial Intelligence (AI), Computational Lingnistics and Database theory. Ontology'S potential is being realized in its ability to capture knowledge into a knowledge-base that could be shared with people within a particular domain area. This study aims at helping the software developers in understanding the different types of terminologies applied when conducting software development. The main objective is to develop an ontology for Information Systems Development Methodologies. The ontology will be used to mediate the meaning ofterminologies of SD. In cases where the development of software is undertaken through outsourcing, the software developers located in different countries can use a similar ontology in order to minimise the misunderstanding in the application of systems development terminologies during the development process. To determine the terminologies to use in the development of the ontology, a qualitative research approach was used. The research is regarded qualitative, as the information gathered for this research will not be expressed in numbers. The research paradigm employed in this research in interpretive in nature. To gather the data, both primary and secondary data collection strategies were employed. Data was gathered through document review and it was coupled with interviews conducted on a software development practitioner and three academics. After the data was collected, it was analyzed using the agreed upon terminologies. The ontology was then developed using a software package called Protege. The study found that software developers still have a misunderstanding on the use of SD terminologies. By developing an ontology for Information Systems Development Methodologies, the software developers can use the ontology to mediate the meaning of the SD terminologies that would minimize the misunderstanding of systems development terminologies when conducting software development.
Thesis (M.Sc. (Computer Science))--North-West University, Potchefstroom Campus, 2010.
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Banks, David. "Sharing understandings of information systems development methodologies : a critical reflexive issue for practice and curriculum." Thesis, University of Manchester, 2011. https://www.research.manchester.ac.uk/portal/en/theses/sharing-understandings-of-information-systems-developmentmethodologies-a-critical-reflexive-issue-for-practice-andcurriculum(ee22a023-f316-417a-a661-45ba18bf48e9).html.

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Most contemporary organizations make use of computer-based information systems to support their management activities. There is considerable evidence that many of these systems experience problems during the development phases and a large proportion of these systems may, using specific criteria, be classed as failures. The reported high level of such failure in the development of computer-based information systems is not a new phenomenon for business, having been present almost from the inception of these systems. The frameworks that guide developers through the process can be labelled as information systems development methodologies, or ISDMs.For an educator involved with the teaching of some or all aspects of the development process this perceived high level of failure of systems development and implementation in practice raises some significant concerns. If there is a 'silver bullet' approach that students need to be equipped with to become successful systems developers we need to identify it and ensure that they are proficient with it. If there is no silver bullet we need to acknowledge this in our teaching and equip the students with the critical thinking skills to help them appreciate this in their later practice.This thesis takes as its central theme the view that there is currently no 'silver bullet' and one may never be found to fit all development projects and environments. Under such a constraint our students, as would-be practitioners, need to be helped to approach practice unfettered by a naïve belief that there is a single approach that offers guaranteed success in the development of information systems. Flexible, contingent and possibly creative approaches need to be fostered so that students can both work in the field and can contribute to both the overall understanding of that field and to their own personal development. The thesis considers the role of multiple perspectives, constructivism, language, communication and reflection as vehicles to allow the building and sharing of accessible understanding of information systems development methodologies in a tertiary education setting. The issues are explored through the design and development of a Masters course titled 'Information Systems Development Methodologies' that was designed and implemented at the University of South Australia in the period 1999 to 2008. The course was initially designed within an interpretivist paradigm and rather than following a traditional systems analysis and design path could be viewed more as a liberal arts course. However, as the course moved towards the end of its life it began to take on a more positivistic flavour.The story of the course emerged from a series of action learning cycles and is told from the perspective of the author who was both the researcher and the subject of the research.
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Books on the topic "Information Systems Development Methodologies"

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Avison, D. E. Information systems development: Methodologies, techniques, and tools. Oxford [England]: Blackwell Scientific Publications, 1994.

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G, Fitzgerald, ed. Information systems development: Methodologies, techniques, and tools. Oxford [England]: Blackwell Scientific Publications, 1988.

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G, Fitzgerald, ed. Information systems development: Methodologies, techniques and tools. 4th ed. London: McGraw-Hill, 2006.

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G, Fitzgerald, ed. Information systems development: Methodologies, techniques, and tools. 3rd ed. London: McGraw-Hill, 2003.

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Kirikova, Marite. Information Systems Development: Advances in Methodologies, Components, and Management. Boston, MA: Springer US, 2003.

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Skok, Walter. Information systems development: Methodologies and tools : impressions of Spain and future European developments. Kingston-upon-Thames (Surrey): Kingston Polytechnic, 1991.

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Mehdi, Dastani, El Fallah Seghrouchni Amal, Leite João Alexandre, Siekmann Jörg H, Torroni Paolo, and SpringerLink (Online service), eds. Languages, Methodologies and Development Tools for Multi-Agent Systems: First International Workshop, LADS 2007, Durham, UK, September 4-6, 2007. Revised Selected Papers. Berlin, Heidelberg: Springer-Verlag Berlin Heidelberg, 2008.

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LADS 2009 (2009 Turin, Italy). Languages, methodologies, and development tools for multi-agent systems: Second international workshop, LADS 2009, Torino, Italy, September 7-9, 2009 : revised selected papers. Berlin: Springer, 2010.

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Beynon-Davies, Paul. Information systems development. Basingstoke: Macmillan, 1989.

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Pooley, Rob, Jennifer Coady, Christoph Schneider, Henry Linger, Chris Barry, and Michael Lang, eds. Information Systems Development. New York, NY: Springer New York, 2013. http://dx.doi.org/10.1007/978-1-4614-4951-5.

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Book chapters on the topic "Information Systems Development Methodologies"

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Isaias, Pedro, and Tomayess Issa. "Information Systems Development Methodologies." In High Level Models and Methodologies for Information Systems, 41–61. New York, NY: Springer New York, 2014. http://dx.doi.org/10.1007/978-1-4614-9254-2_3.

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Avgerou, Chrisanthi, and Tony Cornford. "Methodologies for information systems development." In Developing Information Systems, 185–202. London: Macmillan Education UK, 1998. http://dx.doi.org/10.1007/978-1-349-14813-4_9.

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Huisman, Magda, and Juhani Iivari. "The Organisational Deployment of Systems Development Methodologies." In Information Systems Development, 87–100. Boston, MA: Springer US, 2002. http://dx.doi.org/10.1007/978-1-4615-0167-1_8.

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Domínguez-Mayo, Francisco José, María José Escalona, Manuel Mejías, and Jesús Torres. "Studying Maintainability on Model-Driven Web Methodologies." In Information Systems Development, 195–206. New York, NY: Springer New York, 2011. http://dx.doi.org/10.1007/978-1-4419-9790-6_16.

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Domínguez-Mayo, F. J., M. J. Escalona, and M. Mejías. "Quality Issues on Model-Driven Web Engineering Methodologies." In Information Systems Development, 295–306. New York, NY: Springer New York, 2010. http://dx.doi.org/10.1007/978-1-4419-7355-9_25.

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Traxler, John. "Developing Web-Based Education Using Information Systems Methodologies." In Information Systems Development, 69–77. Boston, MA: Springer US, 2002. http://dx.doi.org/10.1007/978-1-4615-0167-1_6.

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Soriyan, H. Abimbola, Anja Mursu, and Mikko Korpela. "Information System Development Methodologies." In Women, Work and Computerization, 146–54. Boston, MA: Springer US, 2000. http://dx.doi.org/10.1007/978-0-387-35509-2_18.

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Beydoun, G., A. K. Krishna, A. Ghose, and G. C. Low. "Towards Ontology-Based MAS Methodologies: Ontology-Based Early Requirements." In Information Systems Development, 923–35. Boston, MA: Springer US, 2008. http://dx.doi.org/10.1007/978-0-387-78578-3_26.

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Domínguez-Mayo, F. J., M. J. Escalona, M. Mejías, and J. Ponce. "Tool Support for the Quality Assessment of MDWE Methodologies." In Information Systems Development, 265–77. New York, NY: Springer New York, 2013. http://dx.doi.org/10.1007/978-1-4614-4951-5_22.

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Hansen, Bo, Karlheinz Kautz, and Dan Jacobsen. "Information Systems Development Methodologies in Practice." In Constructing the Infrastructure for the Knowledge Economy, 127–39. Boston, MA: Springer US, 2004. http://dx.doi.org/10.1007/978-1-4757-4852-9_8.

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Conference papers on the topic "Information Systems Development Methodologies"

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Michalec, Lukasz, and David A Banks. "Information Systems Development Methodologies and all that Jazz." In InSITE 2004: Informing Science + IT Education Conference. Informing Science Institute, 2004. http://dx.doi.org/10.28945/2805.

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This paper explores the relationships between jazz and the development of information systems. Similarities are drawn between music in general and information systems development methodologies and jazz is taken as a specific focus. The idea of music as an information system in its own right is outlined. As systems development methodologies move from formal approaches towards more ad hoc forms, the lessons that can be learned from jazz, such as improvisation and shared meaning, may become increasingly useful.
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Al-Hajri, H., Y. Rezgui, I. Wilson, and A. Marks. "Using Delphi and AHP in Information Systems Development Methodologies." In International Conference on Computing in Civil Engineering. Reston, VA: American Society of Civil Engineers, 2012. http://dx.doi.org/10.1061/9780784412343.0029.

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Cabri, Giacomo, Mariachiara Puviani, and Raffaele Quitadamo. "Connecting Methodologies and Infrastructures in the Development of Agent Systems." In 2008 International Multiconference on Computer Science and Information Technology. IEEE, 2008. http://dx.doi.org/10.1109/imcsit.2008.4747212.

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Quelal, Rosa E., Monica Villavicencio, and Luis E. Mendoza. "A survey of agile software development methodologies in Ecuador." In 2018 13th Iberian Conference on Information Systems and Technologies (CISTI). IEEE, 2018. http://dx.doi.org/10.23919/cisti.2018.8399186.

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Tomala-Gonzales, Jennifer, Jose Guaman-Quinche, Edwin Guaman-Quinche, Wilman Chamba-Zaragocin, and Silvana Mendoza-Betancourt. "Serious Games: Review of methodologies and Games engines for their development." In 2020 15th Iberian Conference on Information Systems and Technologies (CISTI). IEEE, 2020. http://dx.doi.org/10.23919/cisti49556.2020.9140827.

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Cippico, Vinko. "Comparison of the Decision Support systems and the Transaction Support System Development Methodologies." In Proceedings of the First East-European Symposium on Advances in Databases and Information Systems. BCS Learning & Development, 1997. http://dx.doi.org/10.14236/ewic/adbis1997.13.

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Gharaibeh, Natheer, Saleh M. Abu-Soud, Wafa Bdour, and Islah Gharaibeh. "Agile Development Methodologies: Are they suitable for developing Decision Support Systems." In 2009 Second International Conference on the Applications of Digital Information and Web Technologies (ICADIWT). IEEE, 2009. http://dx.doi.org/10.1109/icadiwt.2009.5273971.

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Abdurrahman, Lukman, Armein Z. R. Langi, and Suhardi. "Development of methodologies for measuring IT capability in the information and communication industries." In 2014 International Conference on Information Technology Systems and Innovation (ICITSI). IEEE, 2014. http://dx.doi.org/10.1109/icitsi.2014.7048262.

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Moreira, Marcio Aurelio Ribeiro, and Natalia Rios Guimaraes. "Evaluation of Software Development Methodologies and Scrum Application in a Small Business." In 14th CONTECSI International Conference on Information Systems and Technology Management. TECSI, 2017. http://dx.doi.org/10.5748/9788599693131-14contecsi/rf-4593.

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"Comparing Methodologies for Service-Orientation using the Generic System Development Process." In The 6th International Workshop on Modelling, Simulation,Verification and Validation of Enterprise Information Systems. SciTePress - Science and and Technology Publications, 2008. http://dx.doi.org/10.5220/0001738901010108.

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Reports on the topic "Information Systems Development Methodologies"

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Dunleavy, G. J. System Considerations and Methodologies in Support of Software Development and Maintenance in the Information System Resource. Fort Belvoir, VA: Defense Technical Information Center, October 1988. http://dx.doi.org/10.21236/ada218300.

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Tom, Joe, Marcelo Garcia, and Haode Wang. Review of Methodologies to Assess Bridge Safety During and After Floods. Illinois Center for Transportation, May 2022. http://dx.doi.org/10.36501/0197-9191/22-008.

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This report summarizes a review of technologies used to monitor bridge scour with an emphasis on techniques appropriate for testing during and immediately after design flood conditions. The goal of this study is to identify potential technologies and strategies for Illinois Department of Transportation that may be used to enhance the reliability of bridge safety monitoring during floods from local to state levels. The research team conducted a literature review of technologies that have been explored by state departments of transportation (DOTs) and national agencies as well as state-of-the-art technologies that have not been extensively employed by DOTs. This review included informational interviews with representatives from DOTs and relevant industry organizations. Recommendations include considering (1) acquisition of tethered kneeboard or surf ski-mounted single-beam sonars for rapid deployment by local agencies, (2) acquisition of remote-controlled vessels mounted with single-beam and side-scan sonars for statewide deployment, (3) development of large-scale particle image velocimetry systems using remote-controlled drones for stream velocity and direction measurement during floods, (4) physical modeling to develop Illinois-specific hydrodynamic loading coefficients for Illinois bridges during flood conditions, and (5) development of holistic risk-based bridge assessment tools that incorporate structural, geotechnical, hydraulic, and scour measurements to provide rapid feedback for bridge closure decisions.
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Perdigão, Rui A. P. Earth System Dynamic Intelligence - ESDI. Meteoceanics, April 2021. http://dx.doi.org/10.46337/esdi.210414.

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Earth System Dynamic Intelligence (ESDI) entails developing and making innovative use of emerging concepts and pathways in mathematical geophysics, Earth System Dynamics, and information technologies to sense, monitor, harness, analyze, model and fundamentally unveil dynamic understanding across the natural, social and technical geosciences, including the associated manifold multiscale multidomain processes, interactions and complexity, along with the associated predictability and uncertainty dynamics. The ESDI Flagship initiative ignites the development, discussion and cross-fertilization of novel theoretical insights, methodological developments and geophysical applications across interdisciplinary mathematical, geophysical and information technological approaches towards a cross-cutting, mathematically sound, physically consistent, socially conscious and operationally effective Earth System Dynamic Intelligence. Going beyond the well established stochastic-dynamic, information-theoretic, artificial intelligence, mechanistic and hybrid techniques, ESDI paves the way to exploratory and disruptive developments along emerging information physical intelligence pathways, and bridges fundamental and operational complex problem solving across frontier natural, social and technical geosciences. Overall, the ESDI Flagship breeds a nascent field and community where methodological ingenuity and natural process understanding come together to shed light onto fundamental theoretical aspects to build innovative methodologies, products and services to tackle real-world challenges facing our planet.
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4

Gilbert, John A. Development of Fiber Optic Systems for Recording and Transmitting Holographic Information. Fort Belvoir, VA: Defense Technical Information Center, December 1987. http://dx.doi.org/10.21236/ada189406.

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5

Browning, Miriam F., Joan S. Creighton, and Debra F. Thompson. Department of Defense Information Systems Workforce: Education, Training, and Career Development. Fort Belvoir, VA: Defense Technical Information Center, October 1992. http://dx.doi.org/10.21236/ada264930.

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6

Henderson, Tim, Vincent Santucciq, Tim Connors, and Justin Tweet. National Park Service geologic type section inventory: San Francisco Bay Area Inventory & Monitoring Network. National Park Service, May 2022. http://dx.doi.org/10.36967/nrr-2293533.

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A fundamental responsibility of the National Park Service (NPS) is to ensure that the resources of the National Park System are preserved, protected, and managed in consideration of the resources themselves and for the benefit and enjoyment by the public. Through the inventory, monitoring, and study of park resources, we gain a greater understanding of the scope, significance, distribution, and management issues associated with these resources and their use. This baseline of natural resource information is available to inform park managers, scientists, stakeholders, and the public about the conditions of these resources and the factors or activities that may threaten or influence their stability and preservation. There are several different categories of geologic or stratigraphic units (supergroup, group, formation, member, bed) that form a hierarchical system of classification. The mapping of stratigraphic units involves the evaluation of lithologies (rock types), bedding properties, thickness, geographic distribution, and other factors. Mappable geologic units may be described and named through a rigorously defined process that is standardized and codified by the professional geologic community (North American Commission on Stratigraphic Nomenclature 2021). In most instances when a new geologic unit such as a formation is described and named in the scientific literature, a specific and well-exposed section or exposure area of the unit is designated as the stratotype (see “Definitions” below). The type section is an important reference exposure for a named geologic unit that presents a relatively complete and representative example for this unit. Geologic stratotypes are important both historically and scientifically, and should be available for other researchers to evaluate in the future. The inventory of all geologic stratotypes throughout the 423 units of the NPS is an important effort in documenting these locations in order that NPS staff recognize and protect these areas for future studies. The focus adopted for completing the baseline inventories throughout the NPS is centered on the 32 inventory and monitoring networks (I&M) established during the late 1990s. The I&M networks are clusters of parks within a defined geographic area based on the ecoregions of North America (Fenneman 1946; Bailey 1976; Omernik 1987). These networks share similar physical resources (geology, hydrology, climate), biological resources (flora, fauna), and ecological characteristics. Specialists familiar with the resources and ecological parameters of the network, and associated parks, work with park staff to support network-level activities (inventory, monitoring, research, data management). Adopting a network-based approach to inventories worked well when the NPS undertook paleontological resource inventories for the 32 I&M networks. The planning team from the NPS Geologic Resources Division who proposed and designed this inventory selected the Greater Yellowstone Inventory & Monitoring Network (GRYN) as the pilot network for initiating this project (Henderson et al. 2020). Through the research undertaken to identify the geologic stratotypes within the parks of the GRYN methodologies for data mining and reporting on these resources were established. Methodologies and reporting adopted for the GRYN have been used in the development of this report for the San Francisco Bay Area Inventory & Monitoring Network (SFAN). The goal of this project is to consolidate information pertaining to geologic type sections that occur within NPS-administered areas, in order that this information is available throughout the NPS to inform park managers and to promote the preservation and protection of these important geologic landmarks and geologic heritage resources. The review of stratotype occurrences for the SFAN shows there are currently no designated stratotypes for Fort Point National Historic Site (FOPO) and Muir Woods National Monument (MUWO)...
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7

Henderson, Tim, Mincent Santucci, Tim Connors, and Justin Tweet. National Park Service geologic type section inventory: Chihuahuan Desert Inventory & Monitoring Network. National Park Service, April 2021. http://dx.doi.org/10.36967/nrr-2285306.

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A fundamental responsibility of the National Park Service is to ensure that park resources are preserved, protected, and managed in consideration of the resources themselves and for the benefit and enjoyment by the public. Through the inventory, monitoring, and study of park resources, we gain a greater understanding of the scope, significance, distribution, and management issues associated with these resources and their use. This baseline of natural resource information is available to inform park managers, scientists, stakeholders, and the public about the conditions of these resources and the factors or activities which may threaten or influence their stability. There are several different categories of geologic or stratigraphic units (supergroup, group, formation, member, bed) which represent a hierarchical system of classification. The mapping of stratigraphic units involves the evaluation of lithologies, bedding properties, thickness, geographic distribution, and other factors. If a new mappable geologic unit is identified, it may be described and named through a rigorously defined process that is standardized and codified by the professional geologic community (North American Commission on Stratigraphic Nomenclature 2005). In most instances when a new geologic unit such as a formation is described and named in the scientific literature, a specific and well-exposed section of the unit is designated as the type section or type locality (see Definitions). The type section is an important reference section for a named geologic unit which presents a relatively complete and representative profile for this unit. The type or reference section is important both historically and scientifically, and should be recorded such that other researchers may evaluate it in the future. Therefore, this inventory of geologic type sections in NPS areas is an important effort in documenting these locations in order that NPS staff recognize and protect these areas for future studies. The documentation of all geologic type sections throughout the 423 units of the NPS is an ambitious undertaking. The strategy for this project is to select a subset of parks to begin research for the occurrence of geologic type sections within particular parks. The focus adopted for completing the baseline inventories throughout the NPS was centered on the 32 inventory and monitoring networks (I&M) established during the late 1990s. The I&M networks are clusters of parks within a defined geographic area based on the ecoregions of North America (Fenneman 1946; Bailey 1976; Omernik 1987). These networks share similar physical resources (geology, hydrology, climate), biological resources (flora, fauna), and ecological characteristics. Specialists familiar with the resources and ecological parameters of the network, and associated parks, work with park staff to support network level activities (inventory, monitoring, research, data management). Adopting a network-based approach to inventories worked well when the NPS undertook paleontological resource inventories for the 32 I&M networks. The network approach is also being applied to the inventory for the geologic type sections in the NPS. The planning team from the NPS Geologic Resources Division who proposed and designed this inventory selected the Greater Yellowstone Inventory and Monitoring Network (GRYN) as the pilot network for initiating this project. Through the research undertaken to identify the geologic type sections within the parks of the GRYN, methodologies for data mining and reporting on these resources was established. Methodologies and reporting adopted for the GRYN have been used in the development of this type section inventory for the Chihuahuan Desert Inventory & Monitoring Network. The goal of this project is to consolidate information pertaining to geologic type sections which occur within NPS-administered areas, in order that this information is available throughout the NPS...
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8

Henderson, Tim, Vincent Santucci, Tim Connors, and Justin Tweet. National Park Service geologic type section inventory: Northern Colorado Plateau Inventory & Monitoring Network. National Park Service, April 2021. http://dx.doi.org/10.36967/nrr-2285337.

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Abstract:
A fundamental responsibility of the National Park Service (NPS) is to ensure that park resources are preserved, protected, and managed in consideration of the resources themselves and for the benefit and enjoyment by the public. Through the inventory, monitoring, and study of park resources, we gain a greater understanding of the scope, significance, distribution, and management issues associated with these resources and their use. This baseline of natural resource information is available to inform park managers, scientists, stakeholders, and the public about the conditions of these resources and the factors or activities which may threaten or influence their stability. There are several different categories of geologic or stratigraphic units (supergroup, group, formation, member, bed) which represent a hierarchical system of classification. The mapping of stratigraphic units involves the evaluation of lithologies, bedding properties, thickness, geographic distribution, and other factors. If a new mappable geologic unit is identified, it may be described and named through a rigorously defined process that is standardized and codified by the professional geologic community (North American Commission on Stratigraphic Nomenclature 2005). In most instances when a new geologic unit such as a formation is described and named in the scientific literature, a specific and well-exposed section of the unit is designated as the type section or type locality (see Definitions). The type section is an important reference section for a named geologic unit which presents a relatively complete and representative profile. The type or reference section is important both historically and scientifically, and should be available for other researchers to evaluate in the future. Therefore, this inventory of geologic type sections in NPS areas is an important effort in documenting these locations in order that NPS staff recognize and protect these areas for future studies. The documentation of all geologic type sections throughout the 423 units of the NPS is an ambitious undertaking. The strategy for this project is to select a subset of parks to begin research for the occurrence of geologic type sections within particular parks. The focus adopted for completing the baseline inventories throughout the NPS was centered on the 32 inventory and monitoring networks (I&M) established during the late 1990s. The I&M networks are clusters of parks within a defined geographic area based on the ecoregions of North America (Fenneman 1946; Bailey 1976; Omernik 1987). These networks share similar physical resources (geology, hydrology, climate), biological resources (flora, fauna), and ecological characteristics. Specialists familiar with the resources and ecological parameters of the network, and associated parks, work with park staff to support network level activities (inventory, monitoring, research, data management). Adopting a network-based approach to inventories worked well when the NPS undertook paleontological resource inventories for the 32 I&M networks. The network approach is also being applied to the inventory for the geologic type sections in the NPS. The planning team from the NPS Geologic Resources Division who proposed and designed this inventory selected the Greater Yellowstone Inventory and Monitoring Network (GRYN) as the pilot network for initiating this project. Through the research undertaken to identify the geologic type sections within the parks of the GRYN methodologies for data mining and reporting on these resources was established. Methodologies and reporting adopted for the GRYN have been used in the development of this type section inventory for the Northern Colorado Plateau Inventory & Monitoring Network. The goal of this project is to consolidate information pertaining to geologic type sections which occur within NPS-administered areas, in order that this information is available throughout the NPS...
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9

Henderson, Tim, Vincent Santucci, Tim Connors, and Justin Tweet. National Park Service geologic type section inventory: Klamath Inventory & Monitoring Network. National Park Service, July 2021. http://dx.doi.org/10.36967/nrr-2286915.

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Abstract:
A fundamental responsibility of the National Park Service (NPS) is to ensure that park resources are preserved, protected, and managed in consideration of the resources themselves and for the benefit and enjoyment by the public. Through the inventory, monitoring, and study of park resources, we gain a greater understanding of the scope, significance, distribution, and management issues associated with these resources and their use. This baseline of natural resource information is available to inform park managers, scientists, stakeholders, and the public about the conditions of these resources and the factors or activities which may threaten or influence their stability. There are several different categories of geologic or stratigraphic units (supergroup, group, formation, member, bed) which represent a hierarchical system of classification. The mapping of stratigraphic units involves the evaluation of lithologies, bedding properties, thickness, geographic distribution, and other factors. If a new mappable geologic unit is identified, it may be described and named through a rigorously defined process that is standardized and codified by the professional geologic community (North American Commission on Stratigraphic Nomenclature 2005). In most instances when a new geologic unit such as a formation is described and named in the scientific literature, a specific and well-exposed section of the unit is designated as the type section or type locality (see Definitions). The type section is an important reference section for a named geologic unit which presents a relatively complete and representative profile. The type or reference section is important both historically and scientifically, and should be protected and conserved for researchers to study and evaluate in the future. Therefore, this inventory of geologic type sections in NPS areas is an important effort in documenting these locations in order that NPS staff recognize and protect these areas for future studies. The documentation of all geologic type sections throughout the 423 units of the NPS is an ambitious undertaking. The strategy for this project is to select a subset of parks to begin research for the occurrence of geologic type sections within particular parks. The focus adopted for completing the baseline inventories throughout the NPS was centered on the 32 inventory and monitoring networks (I&M) established during the late 1990s. The I&M networks are clusters of parks within a defined geographic area based on the ecoregions of North America (Fenneman 1946; Bailey 1976; Omernik 1987). These networks share similar physical resources (geology, hydrology, climate), biological resources (flora, fauna), and ecological characteristics. Specialists familiar with the resources and ecological parameters of the network, and associated parks, work with park staff to support network level activities (inventory, monitoring, research, data management). Adopting a network-based approach to inventories worked well when the NPS undertook paleontological resource inventories for the 32 I&M networks. The network approach is also being applied to the inventory for the geologic type sections in the NPS. The planning team from the NPS Geologic Resources Division who proposed and designed this inventory selected the Greater Yellowstone Inventory and Monitoring Network (GRYN) as the pilot network for initiating this project. Through the research undertaken to identify the geologic type sections within the parks of the GRYN methodologies for data mining and reporting on these resources were established. Methodologies and reporting adopted for the GRYN have been used in the development of this type section inventory for the Klamath Inventory & Monitoring Network. The goal of this project is to consolidate information pertaining to geologic type sections which occur within NPS-administered areas, in order that this information is available throughout the NPS to inform park managers...
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10

Henderson, Tim, Vincent Santucci, Tim Connors, and Justin Tweet. National Park Service geologic type section inventory: Mojave Desert Inventory & Monitoring Network. National Park Service, December 2021. http://dx.doi.org/10.36967/nrr-2289952.

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Abstract:
A fundamental responsibility of the National Park Service (NPS) is to ensure that park resources are preserved, protected, and managed in consideration of the resources themselves and for the benefit and enjoyment by the public. Through the inventory, monitoring, and study of park resources, we gain a greater understanding of the scope, significance, distribution, and management issues associated with these resources and their use. This baseline of natural resource information is available to inform park managers, scientists, stakeholders, and the public about the conditions of these resources and the factors or activities that may threaten or influence their stability and preservation. There are several different categories of geologic or stratigraphic units (supergroup, group, formation, member, bed) that represent a hierarchical system of classification. The mapping of stratigraphic units involves the evaluation of lithologies, bedding properties, thickness, geographic distribution, and other factors. Mappable geologic units may be described and named through a rigorously defined process that is standardized and codified by the professional geologic community (North American Commission on Stratigraphic Nomenclature 2005). In most instances when a new geologic unit such as a formation is described and named in the scientific literature, a specific and well-exposed section or exposure area of the unit is designated as the type section or other category of stratotype (see “Definitions” below). The type section is an important reference exposure for a named geologic unit which presents a relatively complete and representative example for this unit. Geologic stratotypes are important both historically and scientifically, and should be available for other researchers to evaluate in the future.. The inventory of all geologic stratotypes throughout the 423 units of the NPS is an important effort in documenting these locations in order that NPS staff recognize and protect these areas for future studies. The focus adopted for completing the baseline inventories throughout the NPS was centered on the 32 inventory and monitoring networks (I&M) established during the late 1990s. The I&M networks are clusters of parks within a defined geographic area based on the ecoregions of North America (Fenneman 1946; Bailey 1976; Omernik 1987). These networks share similar physical resources (e.g., geology, hydrology, climate), biological resources (e.g., flora, fauna), and ecological characteristics. Specialists familiar with the resources and ecological parameters of the network, and associated parks, work with park staff to support network-level activities such as inventory, monitoring, research, and data management. Adopting a network-based approach to inventories worked well when the NPS undertook paleontological resource inventories for the 32 I&M networks. The planning team from the NPS Geologic Resources Division who proposed and designed this inventory selected the Greater Yellowstone Inventory & Monitoring Network (GRYN) as the pilot network for initiating this project. Through the research undertaken to identify the geologic stratotypes within the parks of the GRYN methodologies for data mining and reporting on these resources were established. Methodologies and reporting adopted for the GRYN have been used in the development of this report for the Mojave Desert Inventory & Monitoring Network (MOJN). The goal of this project is to consolidate information pertaining to geologic type sections that occur within NPS-administered areas, in order that this information is available throughout the NPS to inform park managers and to promote the preservation and protection of these important geologic landmarks and geologic heritage resources. The review of stratotype occurrences for the MOJN shows there are currently no designated stratotypes for Joshua Tree National Park (JOTR) or Manzanar National Historic Site (MANZ); Death Valley...
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