Computational Thinking and Design:

Getting Started With Digital-Age Problem Solving

In the Information Age, problems look different. Information comes at us faster than ever before, and our ability to solve problems depends on us being able to make sense of and synthesize this information. We must also design new solutions using all available technology and tools.

Digital-age problem solving combines three key skills and concepts essential to understanding and solving problems in the information age: data literacy, design thinking, and computational thinking. Data literacy is the ability to analyze, interpret, and tell stories using complex sets of data. Design thinking is the ability to understand problems and develop creative solutions. Computational thinking is the process of expressing solutions so that humans and computers can understand them.

Throughout this MOOC-Ed, you'll have the opportunity to dig into digital-age problem solving, engage with its component skills and concepts, and learn how to integrate them into your instructional practice. This course will not be heavy on coding, and you won't need to know any code going in - it will focus on how to integrate digital-age problem solving in a practical way into your classroom.

Course Objectives

  • Understand the components of digital-age problem solving: design thinking, computational thinking, and data literacy;
  • Connect digital-age problem solving to existing content and problem-solving processes;
  • Engage in the digital-age problem solving process through simulated activities;
  • Apply digital-age problem solving in a real-world context;
  • View digital-age problem solving in a variety of careers and subject areas;
  • Explore connections to computer science, coding, and making.

Learn More

Unit 1: What is Digital Age Problem Solving?

In this unit, you'll learn about the course design and course requirements, and have a chance to meet your fellow participants. You'll also learn about the three primary components of digital-age problem solving: computational thinking, design thinking, and data literacy.

Unit 2: Identifying Problems

In this unit, we'll introduce the first phase of the design process: "Understanding the Context". We'll focus on the computational thinking skills of data collection, analysis, and representation. You'll also have the opportunity to explore these concepts on your own, share with the group, and brainstorm applications to your practice.

Unit 3: Making Sense of Problems

This unit will transition from identifying problems to breaking them down in order to determine possible solutions. We'll focus on the "Defining the Problem" phase of the design process, with a specific focus on the computational thinking skills of problem decomposition, abstraction, and parallelization. You'll experience these skills by completing a simulated activity with a problem that you select, and you'll have an opportunity to brainstorm how you can use these concepts in your classroom.

Unit 4: Creating Solutions

Now that we know how to identify contexts and break down problems, the next step is to begin creating solutions. In this unit, we'll focus on the "Creating Solutions" phase of the design process, with a focus on the computational thinking skills of parallelization, algorithm development, automation, and simulation. You'll experience these skills in simulations, and discuss how these concepts can be integrated into your classroom.

Unit 5: Assessing Solutions

This final unit will transition to the “Evaluate, Reflect, Revise” phase of the design process, with a focus on the computational thinking skills of simulation and automation, along with a revisiting of data collection and analysis. It will also serve as a capstone for the course, allowing you to reflect on what you've learned and connect back to the beginning of the design cycle.

As you engage in supporting your own professional development, there are many ways to demonstrate your learning and earn recognition through this course that can be applied towards continuing education units (CEUs) through your own local educational agency.

Completion of the Computational Thinking and Design course will enable participants to earn between 10 and 32.5 hours of professional development credit by completing the following course requirements:

  • 10 hours for completion of the Course Essentials
  • Up to 22.5 hours for completing course micro-credentials

Course Essentials

To maximize your learning opportunities, we suggest doing the following to earn a certificate for 10 hours of professional development (or 1.0 CEU). While we hope you engage with many of the materials in the course, at a minimum, in each unit (1-5), you must:

  1. Participate in unit discussions (post at least one original post and one reply in each discussion forum)
  2. Complete the end-of-course and unit surveys

Micro-credentials

There are also opportunities to participate in performance assessments to demonstrate your competency with ideas presented in the course and apply them to your educational practices. These performance assessments, called micro-credentials, can allow you to earn additional CEUs. Our Computational Thinking and Design micro-credentials are portable and stackable. Once you demonstrate a competency and earn a micro-credential, you will receive a certificate and a virtual badge recognizing your accomplishment. We have created one stack of micro-credentials that is purposefully stacked to help support you as you deepen your knowledge and competence in the digital-age problem-solving process.

Note that you can earn CEUs by successfully completing any of the five Computational Thinking and Design micro-credentials, even if you choose to not complete the requirements for the 10-hour certificate.

Mark Samberg

Mark Samberg is the Technology Innovations Lead at the Friday Institute for Educational Innovation at NC State University. In this role, he works with the project teams at the institute to identify, select, and implement technology solutions that support the work of the projects, outreach, and research at the Friday Institute. Mark also leads the development of the Friday Institute Professional Learning and Collaboration Environment for online professional learning and the MOOC-Ed initiative, was the digital content team lead for the North Carolina Digital Learning Plan, and co-leads the North Carolina Digital Leaders Coaching Network. Additionally, Mark provides coaching and training to teachers, ITFs, and school leadership both online and face to face. Mark joined the Friday Institute after 12 years of working in public schools throughout North Carolina as as a math teacher, instructional coach, technology director, and software developer. Mark holds B.S. degrees in Mathematics Education and Computer Science from NC State University. He also holds a M.Ed. in Instructional Technology from East Carolina University where he is an Ed.D. candidate in Educational Leadership.

Meghan Day

Meghan Day manages the online learning content and provides technical support for the MOOC-Ed platform at the Friday Institute for Educational Innovation at NC State University.

Alex Dreier

Alex Dreier is the Instructional Design Lead at the Friday Institute for Educational Innovation at NC State University's College of Education. His current work focuses on the instructional design and content development for the Institute's current series of MOOC-Eds. Prior to joining the Institute, Alex managed the online training courses for EdTech Leaders Online, a nationally recognized online professional development organization housed at Education Development Center, Inc., in Waltham, MA. Among the courses that Alex helped update and maintain were Using Real Data in the Math Classroom, Using Technology in the Elementary Classroom, and A Conceptual Introduction to Function: Using Visual Models. He holds a B.A. in Psychology from Tulane University and an Ed.M. from the Harvard Graduate School of Education.

Patrick Nichols

Patrick Nichols is the Media Production Specialist for the Friday Institute for Educational Innovation at NC State University.

Shreyas Bharadwaj

Shreyas is currently working as a transportation/ traffic engineer with RK&K's transportation group. His experience includes traffic operational analyses, development and evaluation of creative alternatives to address operational and safety deficiencies. His project assignments range from small-scale studies and/or designs for rural or isolated intersections to the development of complex solutions for urban arterial networks and major freeway systems. His specialty areas include congestion-management studies, feasibility studies for widening projects, travel-demand modeling, transit studies, traffic-impact analysis, transportation planning, traffic operation and safety studies.

Jason Bosko

Jason works as a software developer for SAS Institute, mainly focusing on user interface development in the Data Management division. His work has ranged from full desktop solutions written in Java and C# to web applications written in Adobe Flex and HTML5. He works closely with usability experts to collaborate on designs and with developers from multiple teams to implement features across multiple applications.

Bob Clark

Bob is a graphic designer at Boats Group.

Jaquasha Colon

Jaquasha is a graduate student in the Masters of Landscape Architecture program in the NCSU College of Design. She holds a Master of Urban Design from UNC at Charlotte and a BS of Architectural Studies from Florida A&M University. In total, she's been learning how to design spaces for people for 7 long, exhausting, years. She expects to graduate in Spring 2017 and hopes to have full-time employment secured by May. In her free time, she enjoys craft stouts and porters, and practicing Spanish. When she procrastinates, she enjoys Netflix, Hulu, and HBO. Her design philosophy is people and community first, equity always, and respect the environment every single time.

Jen Sabourin

Jen is a research scientist and software developer for SAS Institute.

Avril Smart

Avril is a research scholar at the Friday Institute for Educational Innovation.

Blythe Tyrone

Blythe is the Communications Specialist for the Friday Institute for Educational Innovation at NCSU. In that role, she writes press releases, blog posts, and feature stories, as well as graphic design, social media, marketing, and updating our website. Much of her time is spent working with researchers to disseminate their work through a variety of media. She is also a part-time graduate student at NC State working toward her MS in Communication.

Brian Wolf

Brian is a physician specializing in internal medicine. His role as physician is to provide access to the tools, expertise, and data that patients need to make effective choices in managing their medical issues. He has lived in many locations around the United States and Europe, and believes strongly that patients and families need to be the driving force behind their care. He and his family have lived in North Carolina for almost seven years.
MOOC-Eds provide a scalable, accessible, and flexible approach that is aligned with the principles of effective professional learning. Our approach is grounded in authentic, active, and collaborative professional learning activities. The approach builds upon the following key design principles: 

  • Self-directed learning, through personalizing your experience by identifying your own goals, selecting among a rich array of resources, and deciding whether, when, and how to engage in discussions and activities to further your own learning and meet your goals. 
  • Peer-supported learning, through engaging in online discussions, reviewing your colleagues' projects, rating posted ideas, recommending resources, crowdsourcing lessons learned, and participating in twitter chats and other exchanges appropriate to the individual course. 
  • Job-embedded learning, through the use of case studies, classroom and school related projects; developing action plans; and other activities that center your work on critical problems of practice and data-informed decision-making in your own classrooms, schools or districts. 
  • Multiple voices, through learning about the perspectives of other teachers and administrators along with those of students, researchers and experts in the field. Our courses are purposefully not designed around one or two experts who present online lectures. They provide exposure to a rich set of perspectives presented within the context of course elements that reflect these core principles.

You will see these design principles implemented in our courses through the following instructional elements:

  • Conceptual Frameworks
  • Resource Collections
  • Asynchronous Discussions and Twitter Chats
  • Student Scenarios
  • Expert Panels
  • Participant Projects and Peer Feedback
  • Crowd-sourcing
  • Professional Learning Community (PLC) Guides

Start Date 03/01/2017
Cost Free
Duration 8 Weeks
Primary Audience Grade 3-12 Teachers
Instructional Coaches
Instructional Technology Facilitators
Certificate Available Yes
Certificate Hours 10-32.5
Course Access Ends 06/15/2017
Future Start Date(s) Fall 2017
Facilitators Mark Samberg