Leveraging Green IS in Logistics

Logistics and especially road transportation account for a major proportion of global greenhouse gas emissions. Thus, increasing eco-sustainability is particularly important in this sector. Green information systems can support the transition towards more eco-sustainable business processes in logistics. To date research in Green IS has been dominated by conceptual and empirical studies, while the community has been reluctant to do design science research developing IS artifacts. Addressing this gap, we develop and evaluate a Green IS artifact for GHG emission tracking in road transportation processes – named Carbon Tracker. The design process was guided by design principles derived from prior Green IS literature. The artifact enables more eco-sustainable practices in logistics to emerge as it provides detailed information about GHG emissions that is indispensable for advanced organizational sense- and decision-making. The evaluation shows that the use of Carbon Tracker leads to more accurate and detailed information on emissions as well as more seamless and efficient workflows than today’s best-practice approaches. Thus, the paper demonstrates how Green IS can be leveraged for more eco-sustainable and efficient business processes and paves the way for further design-oriented research in the Green IS domain.

[1]  Richard T. Watson,et al.  Information Systems and Environmentally Sustainable Development: Energy Informatics and New Directions for the IS Community , 2010, MIS Q..

[2]  Wolfgang Kersten,et al.  Pioneering supply chain design : a comprehensive insight into emerging trends, technologies and applications , 2012 .

[3]  Jan Pries-Heje,et al.  A Comprehensive Framework for Evaluation in Design Science Research 1 , 2022 .

[4]  Salvatore T. March,et al.  Design and natural science research on information technology , 1995, Decis. Support Syst..

[5]  Jan Recker,et al.  Sensemaking and Sustainable Practicing: Functional Affordances of Information Systems in Green Transformations , 2013, MIS Q..

[6]  Gordon B. Davis,et al.  ICIS 2010 Panel Report: Technologies that Transform Business and Research: Lessons from the Past as We Look to the Future , 2010, Commun. Assoc. Inf. Syst..

[7]  Steve Elliot,et al.  Transdisciplinary Perspectives on Environmental Sustainability: A Resource Base and Framework for IT-Enabled Business Transformation , 2011, MIS Q..

[8]  Jan Marco Leimeister,et al.  Gamification , 2013, Business & Information Systems Engineering.

[9]  Philip M. Johnson,et al.  The Kukui Cup: A Dorm Energy Competition Focused on Sustainable Behavior Change and Energy Literacy , 2011, 2011 44th Hawaii International Conference on System Sciences.

[10]  Daniel J. Veit,et al.  The Impact of Endogenous Motivations on Adoption of IT-Enabled Services , 2013 .

[11]  Tom Butler,et al.  Compliance with institutional imperatives on environmental sustainability: Building theory on the role of Green IS , 2011, J. Strateg. Inf. Syst..

[12]  Kerstin Ortwerth,et al.  Green IT/IS Forschung – Ein systematischer Literaturreview und Elemente einer Forschungsagenda , 2012, MKWI 2012.

[13]  K. Weick Making Sense of the Organization, Volume 2: The Impermanent Organization , 2009 .

[14]  Nigel Melville,et al.  Information Systems Innovation for Environmental Sustainability , 2010, MIS Q..

[15]  Sandeep Purao,et al.  Action Design Research , 2011, MIS Q..

[16]  Chieh-Yu Lin,et al.  Determinants of Green Practice Adoption for Logistics Companies in China , 2011 .

[17]  Omar El Sawy,et al.  Building an Information System Design Theory for Vigilant EIS , 1992, Inf. Syst. Res..

[18]  Hanfried Lenz,et al.  Design theory , 1985 .

[19]  Ali Dada,et al.  Carbon Footprints from Enterprises to Product Instances: The Potential of the EPC Network , 2008, GI Jahrestagung.

[20]  Jan Recker,et al.  Enablers and Barriers to the Organizational Adoption of Sustainable Business Practices , 2010, AMCIS.

[21]  Allison Woodruff,et al.  Environmental Sustainability , 2009, IEEE Pervasive Computing.

[22]  Carl Stolze,et al.  Sustainability as a Topic of IS Research – Reviewing a Decade of Literature , 2012 .

[23]  Pär J. Ågerfalk,et al.  Information technology as a change actant in sustainability innovation: Insights from Uppsala , 2011, J. Strateg. Inf. Syst..

[24]  Richard T. Watson,et al.  Green projects: An information drives analysis of four cases , 2011, J. Strateg. Inf. Syst..

[25]  Stephan Aier,et al.  Criteria of progress for information systems design theories , 2011, Inf. Syst. E Bus. Manag..

[26]  Vijay K. Vaishnavi,et al.  A Framework for Theory Development in Design Science Research: Multiple Perspectives , 2012, J. Assoc. Inf. Syst..

[27]  Rüdiger Zarnekow,et al.  Examining the contribution of Green IT to the objectives of IT departments: Empirical Evidence from German Enterprises , 2011, Australas. J. Inf. Syst..

[28]  Matthias Schumann,et al.  Real-Time Data Collection for Product Carbon Footprints in Transportation Processes Based on OBD2 and Smartphones , 2011, 2011 44th Hawaii International Conference on System Sciences.

[29]  Christoph Flath,et al.  Cluster Analysis of Smart Metering Data , 2012, Business & Information Systems Engineering.

[30]  Alan R. Hevner,et al.  POSITIONING AND PRESENTING DESIGN SCIENCE RESEARCH FOR MAXIMUM IMPACT 1 , 2013 .

[31]  Chris Arney Nudge: Improving Decisions about Health, Wealth, and Happiness , 2015 .

[32]  Claus Rautenstrauch,et al.  Environmental informatics—methods, tools and applications in environmental information processing , 2001 .

[33]  Jorge Marx Gómez,et al.  Information Technologies in Environmental Engineering , 2008 .

[34]  Chun Wei Choo,et al.  The knowing organization , 2005 .

[35]  Peter Loos,et al.  Green IT: A Matter of Business and Information Systems Engineering? , 2011, Bus. Inf. Syst. Eng..

[36]  Frank Teuteberg,et al.  Anforderungspriorisierung und Designempfehlungen für Betriebliche Umweltinformationssysteme der nächsten Generation – Ergebnisse einer explorativen Studie , 2012, MKWI 2012.

[37]  Srinivas Talluri,et al.  E‐logistics and the natural environment , 2004 .

[38]  Jan Pries-Heje,et al.  Soft design science methodology , 2009, DESRIST.

[39]  Jorge Marx Gómez,et al.  DATA DEFECTS IN MATERIAL FLOW NETWORKS—CLASSIFICATION AND APPROACHES , 2004, Cybern. Syst..

[40]  Paul A. Zandbergen,et al.  Ecologically Sustainable Organizations: An Institutional Approach , 1995 .

[41]  Vanessa A. Cooper,et al.  Green Information Systems (Green IS) Practice in Organisation: Tracing its Emergence and Recurrent Use , 2012, AMCIS.

[42]  Richard T. Watson,et al.  The Emergence of Sustainability as the New Dominant Logic: Implications for Information Systems , 2012, ICIS.

[43]  Alan R. Hevner,et al.  Design Science in Information Systems Research , 2004, MIS Q..

[44]  G. Schuh Sm@rt Logistics: Intelligent networked systems , 2006 .

[45]  Acklesh Prasad,et al.  Antecedents of Sustainable Management Support for IT-Related Initiatives , 2012, Australas. J. Inf. Syst..

[46]  Arnold Picot,et al.  Why are consumers going green? the role of environmental concerns in private green-IS adoption , 2011, ECIS.

[47]  Shirley Gregor,et al.  The Nature of Theory in Information Systems , 2006, MIS Q..

[48]  Richard T. Watson,et al.  An Institutional Perspective on the Adoption of Green IS & IT , 2011, Australas. J. Inf. Syst..

[49]  Nigel P. Melville Environmental Sustainability 2.0: Empirical Analysis of Environmental Erp Implementation , 2012 .

[50]  Jan vom Brocke,et al.  Environmental Sustainability in Design Science Research: Direct and Indirect Effects of Design Artifacts , 2012, DESRIST.

[51]  Richard T. Watson,et al.  The U-Constructs: Four Information Drives , 2006, Commun. Assoc. Inf. Syst..

[52]  Frank Teuteberg,et al.  State of the art and future research in environmental management information systems - A systematic literature review , 2009, ITEE.

[53]  Marco Aiello,et al.  What IS Can Do for Environmental Sustainability: A Report from CAiSE'11 Panel on Green and Sustainable IS , 2012, Commun. Assoc. Inf. Syst..

[54]  F. J. Gonzalez-Castano,et al.  Base technologies for vehicular networking applications: review and case studies , 2007, 2007 IEEE International Symposium on Industrial Electronics.

[55]  Robert Winter,et al.  Dimensional crossover in Sr2RuO4 within a slave-boson mean-field theory , 2008, 0812.3731.