User:Ramya Priya/sandbox

'''The changes as of now include improving the existing conent by adding inline citations and additinal information, also added a new section "History". I would add more content to the below sections,let me know if the write-up is up-to the standadard of wikipedia, Thanks.Ramya Priya (talk) 06:34, 24 November 2016 (UTC)

Lead Section
Collaborative decision-making (CDM) software is a software application or module that helps to coordinate and disseminate data and reach consensus among work groups. Increase in the competition of the marketplaces, changing organizational structures and pushing the limits of expectations and emerging new challenges for higher officials to deal with international collaborations are all the influence of globalization on the businesses. The need to deal with multicultural collaborative groups working in distributed environments to recover from uncertainty, indefinite problem definitions and changing information made collaborative technologies evolve.

CDM software coordinates the functions and features required to arrive at timely collective decisions, enabling all relevant stakeholders to participate in the process. The core principle of CDM software is that good decisions are not made in isolation in response to an individual’s idea or individual piece of data. They require shared knowledge and analysis of a combination of different pieces of information. Earlier forms of computer-mediated communication(CMC) tools can also be effective for facilitating communication and developing working relationships, but the demand from globalization and the pressure of taking best decisions has increased.

The selection of communication tools is very important for high end collaborative efforts. Online collaboration tools are very different from one another, some use older forms of Internet-based technologies whereas others are using Web 2.0. Wikis, blogs, forums,Rich site summary(RSS), feeds, opinion polls, social networking and community chats are some of the instances for potential communication tools. The practice of these Web 2.0 tools, is now commonly known as collaboration 2.0, which increases the quality of practical collaborations such that it looks almost similar to a conventional face to face forms of collaboration. Managing and working in virtual teams is not any task but it is being done for decades now. The most important factor for any virtual team is decision making. All the virtual teams have to discuss, analyze and find solutions to problems through continuous brain storming session collectively. An emerging enhancement in the integration of social networking and business intelligence (BI),has drastically improvised the decision making by directly linking the information on BI systems with collectively gathered inputs from social software.

Nowadays all the organizations are dependent on business intelligence (BI) tools so that their employers can make better decisions based on the processed information in tools. The application of social software in business intelligence (BI) to the decision-making process provides a significant opportunity to tie information directly to the decisions made throughout the company.

History
Technology scientists and researchers have worked and explored automated decision Support Systems (DSS) for around 40 years. The research initiated with building model-driven DSS in the late 1960s. Advanced with usage of financial related planning systems, spreadsheet-based decision Support Systems and group decision support systems(GDSS) started in the early and mid-1980s. Data warehouses, managerial Information Systems, online analytical processing(OLAP) and business Intelligence emerged in late 1980s and mid-1990s and around same time the knowledge driven DSS and the usage of web-based DSS were evolving significantly. The field of automated decision support is emerging to utilize new advancements and create new applications.

In the 1960s, scientists deliberately started examining the utilization of automated quantitative models to help with basic decision making and planning. Automated decision support systems have become more of real time scenarios with the advancement of minicomputers, timeshare working frameworks and distributed computing. The historical backdrop of the execution of such frameworks starts in the mid-1960s. In a technology field as assorted as DSS, chronicling history is neither slick nor direct. Diverse individuals see the field of decision Support Systems from different vantage focuses and report distinctive records of what happened and what was important. As technology emerged new automated decision support applications were created and worked upon. Scientists utilized multiple frameworks to create and comprehend these applications. Today one can arrange the historical backdrop of DSS into the five expansive DSS classes,including: communications-driven, data-driven, document driven, knowledge-driven and model-driven decision support systems. Model-driven spatial decision support system (SDSS) was developed in the late 1980's and by 1995 the SDSS idea had turned out to be recognized in the literature. Data driven spatial DSS are also quite regular. All in all, a data-driven DSS stresses access to and control of a time-series of internal organization information and sometimes external and current data. Executive Information Systems are cases of data driven DSS.The very first cases of these frameworks were called data-oriented DSS, analysis Information Systems and recovery. Communications-driven DSS utilize networks and communications technologies to facilitate decision-relevant collaboration and communication. In these frameworks, communications technologies are the overwhelming design segment. Devices utilized incorporate groupware, video conferencing and computer-based bulletin boards.

In 1989, Lotus presented a groupware application called Notes and expanded the focus of GDSS to incorporate upgrading communication, collaboration and coordination among gatherings of individuals. In general, groupware, bulletin boards, audio and videoconferencing are the essential advancements for communications-driven decision support. In the last couple of years, voice and video started utilizing the Internet convention and have incredibly extended the conceivable outcomes for synchronous communications-driven DSS. A document driven DSS utilizes PC storage and processing technologies to give record recovery and investigation. Huge archived databases may incorporate examined reports, hypertext records, pictures, sounds and video. Content and record administration expanded in the 1970s and 1980s as a critical, generally utilized automated means for presenting and preparing bits of content. Cases of archives that may be retrieved by a document driven DSS are strategies and techniques, item determinations, catalogs and corporate verifiable reports, including minutes of meetings and correspondence. A search engine is an essential decision-aiding tool connected with document-driven DSS. Knowledge-driven DSS can propose or prescribe actions to managers. These DSS are individual PC frameworks with specific critical thinking ability risen. The "expertise" comprises of knowledge around a specific area, comprehension of issues inside that space, and "skill" at taking care of some of these issues. These frameworks have been called suggestion DSS and knowledge-based DSS.

Web based DSS, starting in roughly 1995, the far reaching Web and worldwide Internet gave an innovation stage to encourage developing the abilities and sending of automated choice support. The arrival of the HTML 2. details with shape labels and tables was a defining moment in the advancement of web-based DSS. In 1995, various papers were introduced on utilizing the Web and Internet for choice support at the third International conference of the International society for decision support systems (ISDSS). Notwithstanding web-based, model-driven DSS, analysts were reporting web access to data warehouses. DSS Research Resources was begun as an online gathering of bookmarks. By 1995, the world-wide web was perceived by various programming designers and scholastics as a genuine stage for executing a wide range of decision support systems. In 1996-97, corporate intranets were produced to support information exchange and knowledge management. The primary decision support apparatuses included specially appointed question and reporting instruments, improvement and recreation models, online analytical processing (OLAP), data mining and data visualization. Enterprise wide DSS utilizing database technologies were particularly well known among large organizations. In 1999, sellers presented new Web-based analytical applications. Numerous DBMS merchants moved their center to web-based analytical applications and business intelligence solutions. In 2000, application service providers (ASPs) started facilitating the application programming and specialized foundation for decision support capabilities. Additionally the year 2000 was a gateway. More advanced "enterprise knowledge portals" were presented by sellers that combined information portals, knowledge management, business intelligence, and communications-driven DSS in an integrated web environment.

Decision support applications and research concentrates on identified data-oriented systems, management expert systems, multidimensional data analysis, query and reporting tools, online analytical processing (OLAP), business Intelligence, group DSS, conferencing and groupware, document management, spatial DSS and executive Information Systems as the technologies rise, meet and wander. The investigation of decision support systems is a connected train that utilizes learning and particularly hypothesis from different disciplines. Consequently, numerous DSS scientists look into inquiries that have been analyzed on the grounds that they were of worry to individuals who were building and utilizing particular DSS. Subsequently a great part of the wide DSS information base gives speculations and headings to building more powerful DSS.

CDM and Business Intelligence
Web 2.0 collaboration tools have reached the mass collaboration expectations by crossing the limits of web 1.0 collaboration tools. These tools provide a user controlled environment with social software in an inexpensive and flexible approach. The raise of collaboration 2.0 technologies are being quickly accepted in the corporate. Social and collaborative business intelligence (BI) were popularly recognized as a sub category with in BI work space in the year 2009. Social and collaborative BI, a type of CDM software, harnesses the functions and philosophies of social networking and social Web 2.0 technologies, applying them to reporting and analytics at the enterprise level, to facilitate better and faster fact-based decision-making.This platform, such as Web 2.0 technologies, is designed around the premise that anyone should be able to share content and contribute to discussion, anywhere and anytime Since 2010 there is an inclination to consolidate highlights from informal organizations into Business Intelligence arrangements. A wide range of business applications ought to likewise take after this crucial change in the coming years.

International Data Corporation(IDC) predicted that 2011 would be the year where the trend of embedding social media style features into BI solutions would make its mark, and that virtually all types of business applications would undergo a fundamental transformation. IDC also believed the emerging CDM software market would grow quickly, forecasting revenues of nearly $2 billion by 2014, with a compound annual growth rate of 38.2 percent between the years 2009 and 2014. CDM software, in the context of BI, is the ability to share and institutionalize information, analysis and insight, which would otherwise be lost.

Business Intelligence (BI) has been broadly utilized to oversee and refine incomprehensible supplies of information.Many organizations have applied business Intelligence in their firms in order to refine their own data for better understanding and decision making. BI also has its applications in statistical analysis, predictive modelling and optimization.The different reports generated by these products play a major role in decision making. Decision Making is an important task in the job as the consequences of a decision effect the growth and performance of the organization. Collaborative Decision Making (CDM) joins social programming with business insight. This mix can drastically enhance the nature of basic decision making by specifically connecting the data contained in BI frameworks with collective information gathered using social programming.User associations could cobble together such a framework with existing social programming, BI stages and essential labeling usefulness. CDM is a rising segment of numerous application sorts - including BI, human resources(HR), ability administration and suites - however it is likewise a conduct realized by the utilization of Web 2.0 applications. In the vanguard of this pattern is the way that BI is being incorporated with shared, cloud-based applications. Virtual world Second Life is additionally rising as a stage for collaborative decision making. The key advantage of this is "breaking down space" and the capacity to mix synchronous and asynchronous exercises. For meetings and occasions, the advantages of having all the significant data and individuals on request, which evacuates the limitations of timetable and geology.Service oriented architecture(SOA) has assumed an essential part in making this a reality. BI pervades a whole association and, if utilized effectively, can decidedly impact choices that influence each useful territory.

Now collective Decision Making (CDM) is a joint government/industry activity went for enhancing air movement stream administration through expanded data trade among aeronautics group partners. CDM is included agents from government, general flight, carriers, private industry and the scholarly world who cooperate to make mechanical and procedural answers for the air traffic flow management (ATFM) challenges confronted by the national airspace system (NAS). New techniques are being used to maximize understanding and improve collaborative Decision Making in areas such as design reviews, construction planning and integrated operations.

Today’s BI tools are doing good work in terms of extracting right information for the right people, but lack of accountability in decision making process is leading the organizations into poor choices. Though there is lot of money invested in the business Intelligence software and data warehouse technology, the output of these is still giving bad business choices. There is a gap created between level of information in business Intelligence and the quality and transparency of decision making. The problem has become so prevalent that the need for collaborative decision making (CDM) software, a new approach making complex business decisions that closely links information and reports gathered from social media collaboration tools emerged. CDM platforms will give users easy access to relevant BI data sources as well as the ability to tag and search those sources for future reference and accountability. The decision itself would be linked to the BI software inputs, collaboration tools and the methods and practices that were used to make that decision.

The need of making complex and efficient decisions with the power of information systems made the use of business intelligence in collaborative decision making The quality of the decisions depends on the effective utilization of BI and information integration in the business which include – capturing BI value, effective practice of BI applications and knowledgeable business officials with expertise in BI and IT knowledge.

Bibliography- Class Assignment 27th Sep '16
The sections that I am editing as of now are Lead seaction,CDM and business intelligence and I would add a new section - History in between the other sections. Below is the Intial list of articles considered for editing Lead section,CDM and business intelligence section and writing up History section.
 * Karacapilidis, N., & Tzagarakis, M. (n.d.). Web-Based Collaboration and Decision Making Support. Web-Based Education Concepts, Methodologies, Tools and Applications, 1460-1471. doi:10.4018/978-1-61520-963-7.ch099


 * Turban, E., Liang, T., & Wu, S. P. (n.d). A Framework for Adopting Collaboration 2.0 Tools for Virtual Group Decision Making. Group Decision and Negotiation,20(2), 137-154. doi:10.1007/s10726-010-9215-5

Ramya Priya (talk) 11:30, 02 October 2016 (UTC)
 * Wahl, L., & Kitchel, A. (2016). Internet Based Collaboration Tools. International Journal of E-Collaboration, 12(1), 27-43. doi:10.4018/ijec.2016010103
 * Mola, L., Rossignoli, C., Carugati, A., & Giangreco, A. (2015). Business Intelligence System Design and its Consequences for Knowledge Sharing, Collaboration, and Decision-Making:. International Journal of Technology and Human Interaction,11(4), 1-25. doi:10.4018/ijthi.2015100101
 * Rouhani, S., Ashrafi, A., Ravasan, A. Z., & Afshari, S. (2016). The impact model of business intelligence on decision support and organizational benefits. Journal of Enterprise Information Management, 29(1), 19-50. doi:10.1108/jeim-12-2014-0126
 * Hedgebeth, D. (n.d). Data‐driven decision making for the enterprise: An overview of business intelligence applications. Vine, 37(4), 414-420. doi:10.1108/03055720710838498
 * Wahl, L., & Kitchel, A. (2016). Internet Based Collaboration Tools. International Journal of E-Collaboration, 12(1), 27-43. doi:10.4018/ijec.2016010103
 * Naracapilidis, N., Papadias, D., & Pappis, C. (n.d.). Computer-mediated collaborative decision making: Theoretical and implementation issues.Proceedings of the 32nd Annual Hawaii International Conference on Systems Sciences. 1999. HICSS-32. Abstracts and CD-ROM of Full Papers. doi:10.1109/hicss.1999.772703
 * "Zhang, Dongsong, and Paul Benjamin Lowry.". "Issues, Limitations, and Opportunities in Cross-Cultural Research on Collaborative Software in Information Systems." Software Applications Concepts, Methodologies, Tools, and Applications. (n.d.): 2194-229. Web.

Class Assignment 16th oct '16
I would like to add below amendments to the Wikipedia article “Open API” to improve the content:

- Add the below sentence in the section “Open APIs in Business”

“There are two key business models applied to the development and application of these APIs known as user pays and developer pays[1]”

- In-line citation added in the section "Characteristics"-

They are based on an open standard[1].

Reference –

1.Mulligan, C. (2009). Open API standardization for the NGN platform. IEEE Communications Magazine, 47(5), 108-113. doi:10.1109/mcom.2009.4939285

Ramya Priya (talk) 18:15, 16 October 2016 (UTC)