From Remote Experiments to Web-Based Learning Objects: An Advanced Telelaboratory for Robotics and Control Systems

2009 ◽  
Vol 56 (12) ◽  
pp. 4817-4825 ◽  
Author(s):  
A. Balestrino ◽  
A. Caiti ◽  
E. Crisostomi
2010 ◽  
Vol 130 (12) ◽  
pp. 2276-2285
Author(s):  
Shintaro Yanagihara ◽  
Akira Ishihara ◽  
Toshinao Ishii ◽  
Junichi Kitsuki ◽  
Kazuo Seo

2015 ◽  
pp. 95-112
Author(s):  
Dewi Salma Prawiradilaga Ari Istiany Diana Ariani

Abstrak:Penelitian pengembangan ini bertujuan untuk menciptakan baik bahan belajar berbasis web mapun panduan belajar untuk mata kuliah Gizi Terapan. Pengembangan tersebut didasarkan pada prinsip desain pembelajaran, learning object, desain pesan dan pembelajaran mandiri personalisasi. Proses pengembangan menggunakan model Dabbagh & Bannan-Ritland yang dikenal dengan model “integrative learning design framework (IDLF)”. Model ini terdiri dari tiga tahapan, yaitu explorating, enactment, dan evaluation. Hasil tahap explorating adalah serangkaian permasalahan dan alternatif solusi untuk mengembangkan mata kuliah tersebut sebagai learning object. Tahap enacment menghasilkan hal-hal apa saja yang harus dikembangkan/diproduksi sebagai aspek pembelajaran seperti urutan topik, naskah, produksi prototipa (vide klip, slide presentasi, draft panduan belajar dll.), serta situs kelas maya mata kuliah Gizi Terapan tersebut pada http:://www.unj.web-bali.net. Evaluasi adalah tahap pembuktian melalui evaluasi satu-satu, review ahli, dan evaluasi kelompok kecil. Penelitian ini sendiri menggunakan tujuh siswa dari Program Studi Tata Boga dan lima dosen sebagai ahli lintas disiplin, yaitu ahli pembelajaran, desain pembelajaran, media (hypermedia) dan gizi terapan.Kata Kunci: gizi terapan, desain pembelajaran, learning object, model IDLF, bahan belajar berbasis web.Abstract:This is a development research which aims to create both web-based learning materials and a learning guide (LG) book for the course on Applied Nutrition. Its underlying theories are principles of instructional design, learning objects (LOs) as well as message design, personalization inindependent learning. The development process is through a model called Integrative learning design framework (IDLF) of Dabbagh & Bannan – Ritland. The IDLF consists of three phases; those are explorating, enactment, and evaluation. Explorating phase results a list of problems and its alternative solutions on how to develop topics chosen (Gizi Balita and Gizi Anak Sekolah) as learning objects. Then, these LOsare to be uploaded into learning paths in theLCMS claroline. Enactment is a process which allows research team to develop those topics into tangible aspects of instruction, such scripts, production of prototypes (slides, video clips, the draft of LG book etc), and a coursesite of Applied Nutrition (Gizi Terapan) at www.unj.web-bali.net. Evaluation consists of tryouts of one-to-one, expert review, and small group evaluation. The research invited seven students of Department of Food Management (Tata Boga) as subjects and five lecturers as transdisciplinary experts of instructional design, instruction, hypermedia and applied nutrition.Keywords : Applied Nutrition, instructional design, learning objects, model IDLF, web-based learning materials.


Author(s):  
Tan Wee Chuen ◽  
Baharuddin Aris ◽  
Mohd Salleh Abu

This chapter aims to guide the readers through the design and development of a prototype Web-based learning system based on the integration of learning objects with the principles of generative learning to improve higher order thinking skills. The chapter describes the conceptual model called Generative Learning Object Organizer and Thinking Tasks (GLOOTT) which was used to design and build a technology- supported learning environment. The chapter then describes how the effectiveness of the Web-based learning system was evaluated and reflects on the importance of the findings more generally.


Author(s):  
Tom Cavanagh

There is a commonly held perception in industry that the academic community is out of touch and irrelevant. Surely, there must be a way to bridge this perception gap and leverage academe’s disciplinary and instructional expertise to benefit the commercial workforce. This chapter presents a collaborative development model that accomplishes this goal, specifically relating to the production of self-paced, Web-based learning objects, catalogued within workforce development curricula. The model provides a roadmap that maximizes the expertise of college faculty, industry managers, and multimedia production specialists to meet the needs of government sponsors, commercial corporations, nonprofit postsecondary institutions, and individual learners.


Author(s):  
A. A. Azeta ◽  
C. K. Ayo ◽  
N. A. Ikhu-Omoregbe

With the proliferation of learning resources on the Web, finding suitable content (using telephone) has become a rigorous task for voice-based online learners to achieve better performance. The problem with Finding Content Suitability (FCS) with voice E-Learning applications is more complex when the sight-impaired learner is involved. Existing voice-enabled applications in the domain of E-Learning lack the attributes of adaptive and reusable learning objects to be able to address the FCS problem. This study provides a Voice-enabled Framework for Recommender and Adaptation (VeFRA) Systems in E-learning and an implementation of a system based on the framework with dual user interfaces – voice and Web. A usability study was carried out in a visually impaired and non-visually impaired school using the International Standard Organization’s (ISO) 9241-11 specification to determine the level of effectiveness, efficiency and user satisfaction. The result of the usability evaluation reveals that the prototype application developed for the school has “Good Usability” rating of 4.13 out of 5 scale. This shows that the application will not only complement existing mobile and Web-based learning systems, but will be of immense benefit to users, based on the system’s capacity for taking autonomous decisions that are capable of adapting to the needs of both visually impaired and non-visually impaired learners.


Author(s):  
Wilson Castello Branco Neto

This chapter reveals how the Web has improved e-learning as well as some of the problems that came along with it. It argues that the main problem is the gap between two groups involved on Web-based learning. The first group spent its energy studying learning processes, although they are not concerned with reducing the costs and the work necessary for the development and management of such systems. On the other hand, the second group aims at facilitating the construction and management of the courses, without turning its efforts toward learning subject. In this chapter, the union of technologies developed by both groups, such as intelligent tutoring systems, adaptive hypermedia, learning management systems, and learning objects, is discussed. The proposal to put together the four technologies is based on Semantic Web technologies, aiming to solve problems faced by developers, teachers, and learners of Web-based learning.


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