Provides an overview of current technologies and strategies in regard to digitization, backed-up by contributions from thought and industry leaders and offers a feasible vision for future developments and directions.
Provides an overview of current technologies and strategies in regard to digitization, backed-up by contributions from thought and industry leaders and offers a feasible vision for future developments and directions.
Klemen Zupancic, PhD in Biomedicine, is the Chief Executive Officer of SciNote LLC, providing top-rated solutions for researchers in government, industry and academia who need to digitalize their laboratory processes. Tea Pavlek, MSc in Biotechnology, is the VP of Marketing at SciNote LLC with over 10 years of experience in science and tech communication. She has collaborated with Slate, Forbes, Nature, Laboratory Focus, Scientific Computing World, and others. Jana Erjavec, PhD in Biomedicine, is the Head of Sales and Business Development at BioSistemika LLC, providing high quality software for laboratory instrument manufacturers, laboratories and software providers.
Inhaltsangabe
Part I - Inspiration
1 The Next Big Developments - The Lab of the Future
Part II - Knowledge Base
2 Crucial Software-related Terms to Understand 3 Introduction to Laboratory Software Solutions and Differences Between Them 4 Data Safety and Cybersecurity 5 FAIR Principles and Why They Matter 6 The Art of Writing and Sharing Methods in the Digital Environment
Part III - Practical
7 How to Approach the Digital Transformation 8 Understanding Standards, Regulations, and Guidelines 9 Interoperability Standards 10 Addressing the User Adoption Challenge 11 Testing the Electronic Lab Notebook and Setting Up a Product Trial
Part IV - Case Studies
12 Understanding and Defining the Academic Chemical Laboratory's Requirements: Approach and Scope of Digitalization Needed 13 Guidelines for Chemistry Labs Looking to Go Digital 14 Electronic Lab Notebook Implementation in a Diagnostics Company 15 Identifying and Overcoming Digitalization Challenges in a Fast-growing Research Laboratory 16 Turning Paper Habits into Digital Proficiency 17 Going from Paper to Digital: Stepwise Approach by the National Institute of Chemistry (Contract Research) 18 Wet Lab Goes Virtual: In Silico Tools, ELNs, and Big Data Help Scientists Generate and Analyze Wet-lab Data 19 Digital Lab Strategy: Enterprise Approach
Part V - Continuous Improvement
20 Next Steps - Continuity After Going Digital
Part VI - Vision of the Future and Changing the Way We Do Science
21 Artificial Intelligence (AI) Transforming Laboratories 22 Academic's Perspective on the Vision About the Technology Trends in the Next 5-10 Years 23 Looking to the Future: Academic Freedom Versus Innovation in Academic Research Institutions 24 Future of Scientific Findings: Communication and Collaboration in the Years to Come 25 Entrepreneur's Perspective on Laboratories in 10 Years
1 The Next Big Developments - The Lab of the Future
Part II - Knowledge Base
2 Crucial Software-related Terms to Understand 3 Introduction to Laboratory Software Solutions and Differences Between Them 4 Data Safety and Cybersecurity 5 FAIR Principles and Why They Matter 6 The Art of Writing and Sharing Methods in the Digital Environment
Part III - Practical
7 How to Approach the Digital Transformation 8 Understanding Standards, Regulations, and Guidelines 9 Interoperability Standards 10 Addressing the User Adoption Challenge 11 Testing the Electronic Lab Notebook and Setting Up a Product Trial
Part IV - Case Studies
12 Understanding and Defining the Academic Chemical Laboratory's Requirements: Approach and Scope of Digitalization Needed 13 Guidelines for Chemistry Labs Looking to Go Digital 14 Electronic Lab Notebook Implementation in a Diagnostics Company 15 Identifying and Overcoming Digitalization Challenges in a Fast-growing Research Laboratory 16 Turning Paper Habits into Digital Proficiency 17 Going from Paper to Digital: Stepwise Approach by the National Institute of Chemistry (Contract Research) 18 Wet Lab Goes Virtual: In Silico Tools, ELNs, and Big Data Help Scientists Generate and Analyze Wet-lab Data 19 Digital Lab Strategy: Enterprise Approach
Part V - Continuous Improvement
20 Next Steps - Continuity After Going Digital
Part VI - Vision of the Future and Changing the Way We Do Science
21 Artificial Intelligence (AI) Transforming Laboratories 22 Academic's Perspective on the Vision About the Technology Trends in the Next 5-10 Years 23 Looking to the Future: Academic Freedom Versus Innovation in Academic Research Institutions 24 Future of Scientific Findings: Communication and Collaboration in the Years to Come 25 Entrepreneur's Perspective on Laboratories in 10 Years
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