Participating in Synchronous Online Education

There is an increasing need for education since the workforce of today is expected to be highly educated and continuously learn. Distance education is a powerful response to meet the growing need for education. Online education, here concisely defined as distance education mediated online, is the most common type of distance education. It mainly relies on asynchronous communication although it is well known that many students regard the lack of synchronous communication as disadvantageous. This thesis aims to achieve a deeper understanding of how, why and when synchronous communication, as a complement to asynchronous communication, affects student participation in online education. In order to study the complex phenomenon of online student participation, various qualitative and quantitative data collection methods for assessing both perceived participation and actual participation were used. The aim was investigated in two offerings of an online undergraduate course and two series of online discussions on master level, and by conducting focus group interviews with experienced practitioners. The findings indicate that synchronous communication has the potential to enhance online student participation. Light was shed on two dimensions of participation, which were labelled personal participation and cognitive participation. The thesis suggests that synchronous communication, as a complement to asynchronous communication, may better support personal participation. This is likely to induce arousal and motivation, and increased convergence on meaning, especially in smaller groups. Synchronous communication seems particularly beneficial for supporting task and social support relations, and to exchange information with a lower degree of complexity. By drawing on the studies of the thesis and previous research, propositions on when to support synchronous communication in online education were suggested

Web Weather 2.0: Improving Weather Information with User-Generated Observations

Introducing web weather 2.0, this paper suggests that active participation by civil society may arise through sharing of environmental data through observations of weather and other measurable variables in the environment performed by individuals. Collecting data from individuals is here suggested for improving weather data currently used by weather research centers and practitioners. Extending these current sets of weather data by using web 2.0 may address some issues stated by the World Meteorological Organization (WMO) regarding spatial and temporal resolutions of meteorological data including knowledge on different processes between the air and other environmental systems. To test the concept of web weather 2.0, the usability of weather data collected from individuals and the expected quantities of such data need to be determined. In addition, collection methods should be developed. Aiming at the design of an artifact that can meet these needs, this paper presents some important steps of the design process of a “share weather” system, including several demonstrations and experiments performed on different user groups, i.e. school children performing weather observations as a part of their daily tasks and education, and adults interested in weather due to their daily dependence on traffic conditions. This paper provides new knowledge about user-generated observations of weather, including quality and motivation to contribute, and guidance on how future systems for collection of environmental data from individuals may be created. After testing the feasibility of the designed “share weather” artifact, we conclude that the potential role of individuals in producing valuable information beneficial to society should be considered within several branches of environmental sciences as well as policy-making

Эритодермическая форма красного волосяного лишая

ПИТИРИАЗ КРАСНЫЙ ВОЛОСЯНОЙ /диагнлишай красный волосянойЭРИТЕМАКОЖНЫЕ БОЛЕЗНИ ПАПУЛЕЗНО-ЧЕШУЙЧАТЫЕ /диаг

Energiahatékonyság Izraelben. Nap- és szélenergetikai példák a lokális térből

This presentation introduces the Relationship of Inquiry framework. It is a theoretical framework for design and analysis of online coaching, a one-to-one inquiry-based online learning activity. The video introduces the framework. During the seminar we will discuss this framework with data from an online coaching program called Math Coach.QC 20150218</p