Poster presented at the 2019 Special Libraries Association (SLA) annual conference.
Abstract: In 2018, the University of Cincinnati Libraries’ Research & Data Services (RDS) unit unveiled a new Visualization Laboratory (Viz Lab) and expanded service model including data visualization/data analysis. The RDS unit has its roots in STEMM and currently includes informationists, librarians and technical consultants who engages with researchers across all disciplines. The Viz Lab and its associated services are the culmination of several years of planning and implementation. This poster will share lessons learned and good practices with our visualization space and service planning, including considerations for space design, service and training models, staffing and assessment. In addition, this poster will describe the early impact of our efforts, as seen through consultation logs, trainings and campus outreach, space usage and grants activity. We will also reveal some future directions for RDS, including plans to increase integration of the Viz Lab and data visualization/data analysis services into the university’s teaching and research missions.
Acknowledgments: Amy Koshoffer, for creation of the Research & Data Services consultation log dataset and database structure.
Abstract: Can a library support an overseas program with a full-time librarian position? Can this position provide distant services successfully through e-learning techniques, social media and other methods? The answer is yes. As many American universities enroll students through a shared or global campus, librarians can play a vital role as the primary information and library services provider. The University of Cincinnati (UC) and Chongqing University, China (CQU) established the first shared engineering programs in China with mandatory co-operative education, the Joint Co-op Institute (JCI), in 2013. Students primarily receive on-campus instruction in China from JCI instructors; however, no UC librarian is onsite to provide dedicated support. In response, UC Libraries developed the new Global Services Librarian position as the lead presence for support of the Libraries’ growing global engagement and partnerships, especially with the JCI. This Librarian provides a full range of services, mostly at a distance, including instruction, outreach, and faculty support. This presentation will describe the development of the Global Services Librarian position, its roles in supporting the JCI, lessons learned in the first year of this position, and how this role could be adapted for other library environments.
If your organization is interested in establishing and developing a joint international program in
China, it is inevitable to face both manageable risks and unpredictable changes. There are
mainly three types of challenges.
● Political impact on travel and visa application: the 2017 re-election in China and
leadership change in the United States affect how efficient for both sides to visit each
other and stay for work.
● Technology restriction on teaching and communication: While the fast internet speed
and open internet are taken for granted in the US, technological difficulties in China can
be a barrier for effective teaching and communication.
● Censorship: In China, censorship is always a challenge, especially in the current state.
Be proactive to work effectively within the constraints.
The presenter is intended to share some experience and best practice based on a successful
joint institute between University of Cincinnati and Chongqing University. As the first coop based
program in China, the program continues to be a leading model in international engineering
It is shown in present study that Rainflow method is unable to accurately estimate fatigue life ofcomponents under random loading, almost always. The inconsistencies between results of Rainflowmethod and hysteresis curve are also discussed. Alike the Peak counting method, it is shown that Shadowmethod doesn’t consider the possibility of deformation within individual cycles. Hence, Moshrefifar andAzamfar method is proposed as a novel technique having accurate results in different analytical condi-tions which are in good consistence with results obtained from hysteresis curves. Authors finally proposean algorithm as well as a C language program for this method.