The complexity of problems at work and high working demands require students to develop multiple skills. One of the alternatives for encountering those conditions is through the process of Entrepreneurship activities or training, especially in vocational-based higher education and other public higher education. This paper aims to present designing process of technopreneurship scientific learning framework in vocational-based higher education. The research used Four D Model (4-D model) which followed stages of 1) Define, 2) Design, 3) Develop, and 4) Disseminate. While in this preliminary research, the stages were conducted only up to the design phase. The framework of technopreneurship scientific learning model resulted consists of, 1) identified problems, needs analysis and learning analysis; 2) scientific technopreneurship cooperative approach; 3) design of the scientific technopreneurship business plan; 4) product (prototype of goods and/or services), and 5) work evaluation. The results elaborate that thetechnopreneurship scientific learning model is as an alternative to producing well-prepared graduates for survival in the society by applying the entrepreneurship skills-based technology.
This research was motivated by the entrepreneurship learning outcomes in vocational education which is still poor. Technopreneurship scientific learning and learning readiness are assumed to be factors affecting entrepreneurship learning outcomes. The purpose of this study is to describe and test the contribution of technopreneurship scientific learning and readiness to learning of entrepreneurship learning outcomes. This research used the quantitative method with correlation descriptive. The population was all students who follow the general course of entrepreneurship in Higher Education for 1100 people. While the samples are 217 students who were selected by using proportional stratified random sampling. This research tool was a Likert scale and a valid and reliable reading comprehension test. Data were analyzed using descriptive statistics, simple regression and multiple regressions. The research findings show that there is a contribution of both technopreneurship scientific learning and learning readiness to entrepreneurship learning outcomes.
This research is aimed to produce a design of learning model in the form of a practical technopreneurship scientific learning model for learning in higher education of vocational education and training. Type of the research is research and development. It was limited to, identify that technopreneurship scientific learning model is practical, and then the product was tested with users; lecturers and students. The questionnaire for assessing the practicality consisted of level of practicality sheet for the users. This instrument was made by using linkert measuring scale. The practicality sheet covered lecturer and students perception towards technopreneurship scientific learning model. It can be practical if it meets the criteria of aspect which is tested to the lecturer to identify attractiveness aspect, aspects of the development process, aspect of user practicality, aspect of functionality and usability, and the aspect of reliability. The result of the research shows that technopreneurship scientific learning model is practical from the lecturer’s view. Besides, from the students’ view, by identifying the students’ interest, the process of its use, improving students` activeness in learning process, the product is also practical. These research findings prove that technopreneurship scientific learning model is practical and be able to be used in higher education, especially in practice courses which expect the students to produce a good product in the form of prototype, blueprint, and concept. This technopreneurship scientific learning model can be developed and used in different courses based on the learning needs.
This study aims to make the syntax of e-training models valid, practical, and effective on pedagogical competencies. Computer-based training is an e-training model that suits students’ desires in developing pedagogical competencies to get quality graduates. The research method used is Research and Development by conducting expert validity tests with Focus Group Discussion (FGD) and limited trials of the e-training model. The results of this study are formed in the syntax of the e-training model which consists of; (1) Preparation Phase includes Planning, Training Program, and Training Program Preparation; (2) Implementation Phase including E-Training, Face-to-Face, Discussion, Demonstration; (3) The evaluation phase includes Input, Process, Output, and Impact. Finally, implementing the e-training model can help prospective educators prepare to enter into vocational teacher candidates. The results are expected to meet the needs of vocational teacher candidates who have pedagogical competencies that influence the vocational students’ influence.
Abstract:This study aims to describe the design of a valid Learning Module for Elementary Elementary subjects. This research type is research of development by using 4D model that is definition stage (define), design stage (design), development stage (develop), and dissemination stage (disseminate). This study looks at whether the designed module is valid, then conducted expert test, namely expert design of Elementary Electronic Learning Module and expert readings Elementary Electronic Learning Module. Aspects that are tested to experts are aspects of the material in the learning module, aspects of presentation on learning modules and aspects of language and legibility. The results showed that the basic Electronic Elementary Learning Module by experts is valid. Then it can be concluded that the Module on Higher Education Vocation is valid.
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