All the basics you need to know about the Mazda CX-30 if you are considering it for your next car and the performance and features it has
Learn what customer journey mapping is, how to create a journey map with tools, and what tips experts have. ⮕ Learn the basics of CJM!
If you're into design thinking and see some lazy Sunday afternoons coming up, this is for you. ► Check out our top 20 design thinking books!
Motion adds a new dimension of engagement in math, science and coding Programming the Rover to move is a fun way to explore topics and concepts in middle grades and high school, promote collaborative problem-solving and spark lively conversations. TI-Nspire™ CX technology and TI-84 Plus CE graphing calculators open new channels for inquiry, exploration and connection as students use the built-in TI-Basic coding language to program the TI-Innovator™ components. Students program Rover to put math and science in motion, adding a physical dimension to verbal, symbolic and graphic representations. Rover also provides an accessible on-ramp to more advanced coding, STEM and robotics projects. The TI-Innovator Rover is out-of-the-box ready to connect to the TI-Innovator™ Hub (sold separately), which is placed in a special bay on Rover. Either a TI-84 Plus CE graphing calculator or TI-Nspire™ CX handheld is secured with clamps on top of Rover. A durable, rechargeable battery (included) powers Rover's two motors. The vehicle also includes a color sensor; a distance sensor; an LED display; a holder for a marker to draw paths on paper; and a gyroscope to measure heading. Hardware Aluminum vehicle chassis Rechargeable battery Two drive wheels with independent motors High-resolution motor shaft encoder sensors Marker holder Front-mounted ranger Gyroscope Bottom-mounted color sensor Red-green-blue (RGB) LED Controlled by TI-Innovator™ Hub Compatible graphing technology TI-84 Plus CE graphing calculator TI-Nspire™ CX graphing calculator TI-Nspire™ CX CAS graphing calculator TI-Nspire™ CX II graphing calculator TI-Nspire™ CX II CAS graphing calculator TI-Nspire™ CX Student Software TI-Nspire™ CX CAS Student Software TI-Nspire™ CX Premium Teacher Software Support One-year limited warranty Toll-free help hotline: 1.800.TI.CARES Email help line: [email protected]
Examples of customer journey maps from the fields like marketing, finance, healthcare, and many more ⮕ View the example maps!
Learn what customer journey mapping is, how to create a journey map with tools, and what tips experts have. ⮕ Learn the basics of CJM!
In this article we give 10 nice examples of how to improve customer experience in traffic and transportation. ► Check it out!
Learn what customer journey mapping is, how to create a journey map with tools, and what tips experts have. ⮕ Learn the basics of CJM!
Find out what service design is, why it is important, and the fundamental principles. ⮕ To the service design guide!
This article presents 10 tips that help to embed service design in an organization. ⮕ Check out the article & get the white paper!
A little over a week ago I posted The Problem With Design Thinking and I wanted to follow up with a piece that explains a bit more about the full-stack approach I described at a high level, as we…
We explain how you can structure and organize your customer experience data in the world of service design. ➨ Read more!
How can we cause less harm through service design? We look at the role and responsibility we have in shaping our future. ► Read more!
TI-Innovator Rover is a two-wheeled programmable robotic vehicle which works with the TI-Innovator Hub with TI Launch Pad Board. You communicate with the TI-Innovator Hub and control the Rover through TI Basic programming commands. Built-in components include two motors, color sensors, ultrasonic ranger, gyroscope, and RGB LED. • Appropriate for various experience levels (coding and non-coding) in math, science, and technology courses. • Easy access to TI-Innovator speaker, light brightness sensor, and input and output ports. • Built-In Components include two motors with encoders for to track rotations, Color Sensor to measure RGB color, Ultrasonic Ranger for measuring distance to obstacles, RGB LE to display programmable feedback to user, marker holder for drawing paths on paper, and gyroscope to measure heading. • Controlled by the TI-Innovator Hub (sold separately). • Compatible with TI-84 Plus CE graphing calculator, TI-Nspire CX handheld, TI-Nspire CX CAS handheld, TI-Nspire CX software. • TI Innovator Hub and calculator are NOT included but are required. • Sold as 1 Each.
Examples of customer journey maps from the fields like marketing, finance, healthcare, and many more ⮕ View the example maps!
Motion adds a new dimension of engagement in math, science and coding Programming the Rover to move is a fun way to explore topics and concepts in middle grades and high school, promote collaborative problem-solving and spark lively conversations. TI-Nspire™ CX technology and TI-84 Plus CE graphing calculators open new channels for inquiry, exploration and connection as students use the built-in TI-Basic coding language to program the TI-Innovator™ components. Students program Rover to put math and science in motion, adding a physical dimension to verbal, symbolic and graphic representations. Rover also provides an accessible on-ramp to more advanced coding, STEM and robotics projects. The TI-Innovator Rover is out-of-the-box ready to connect to the TI-Innovator™ Hub (sold separately), which is placed in a special bay on Rover. Either a TI-84 Plus CE graphing calculator or TI-Nspire™ CX handheld is secured with clamps on top of Rover. A durable, rechargeable battery (included) powers Rover's two motors. The vehicle also includes a color sensor; a distance sensor; an LED display; a holder for a marker to draw paths on paper; and a gyroscope to measure heading. Hardware Aluminum vehicle chassis Rechargeable battery Two drive wheels with independent motors High-resolution motor shaft encoder sensors Marker holder Front-mounted ranger Gyroscope Bottom-mounted color sensor Red-green-blue (RGB) LED Controlled by TI-Innovator™ Hub Compatible graphing technology TI-84 Plus CE graphing calculator TI-Nspire™ CX graphing calculator TI-Nspire™ CX CAS graphing calculator TI-Nspire™ CX II graphing calculator TI-Nspire™ CX II CAS graphing calculator TI-Nspire™ CX Student Software TI-Nspire™ CX CAS Student Software TI-Nspire™ CX Premium Teacher Software Support One-year limited warranty Toll-free help hotline: 1.800.TI.CARES Email help line: [email protected]
Learn more about the process of service design and which steps you can follow. ► Read the article now!
Learn what customer journey mapping is, how to create a journey map with tools, and what tips experts have. ⮕ Learn the basics of CJM!
In this session we talked about about the horrible experiences NPS and driver analysis can cause, and the importance of controlling. ⮕ Learn more!
Motion adds a new dimension of engagement in math, science and coding Programming the Rover to move is a fun way to explore topics and concepts in middle grades and high school, promote collaborative problem-solving and spark lively conversations. TI-Nspire™ CX technology and TI-84 Plus CE graphing calculators open new channels for inquiry, exploration and connection as students use the built-in TI-Basic coding language to program the TI-Innovator™ components. Students program Rover to put math and science in motion, adding a physical dimension to verbal, symbolic and graphic representations. Rover also provides an accessible on-ramp to more advanced coding, STEM and robotics projects. The TI-Innovator Rover is out-of-the-box ready to connect to the TI-Innovator™ Hub (sold separately), which is placed in a special bay on Rover. Either a TI-84 Plus CE graphing calculator or TI-Nspire™ CX handheld is secured with clamps on top of Rover. A durable, rechargeable battery (included) powers Rover's two motors. The vehicle also includes a color sensor; a distance sensor; an LED display; a holder for a marker to draw paths on paper; and a gyroscope to measure heading. Hardware Aluminum vehicle chassis Rechargeable battery Two drive wheels with independent motors High-resolution motor shaft encoder sensors Marker holder Front-mounted ranger Gyroscope Bottom-mounted color sensor Red-green-blue (RGB) LED Controlled by TI-Innovator™ Hub Compatible graphing technology TI-84 Plus CE graphing calculator TI-Nspire™ CX graphing calculator TI-Nspire™ CX CAS graphing calculator TI-Nspire™ CX II graphing calculator TI-Nspire™ CX II CAS graphing calculator TI-Nspire™ CX Student Software TI-Nspire™ CX CAS Student Software TI-Nspire™ CX Premium Teacher Software Support One-year limited warranty Toll-free help hotline: 1.800.TI.CARES Email help line: [email protected]
This article presents 10 tips that help to embed service design in an organization. ⮕ Check out the article & get the white paper!
Motion adds a new dimension of engagement in math, science and coding Programming the Rover to move is a fun way to explore topics and concepts in middle grades and high school, promote collaborative problem-solving and spark lively conversations. TI-Nspire™ CX technology and TI-84 Plus CE graphing calculators open new channels for inquiry, exploration and connection as students use the built-in TI-Basic coding language to program the TI-Innovator™ components. Students program Rover to put math and science in motion, adding a physical dimension to verbal, symbolic and graphic representations. Rover also provides an accessible on-ramp to more advanced coding, STEM and robotics projects. The TI-Innovator Rover is out-of-the-box ready to connect to the TI-Innovator™ Hub (sold separately), which is placed in a special bay on Rover. Either a TI-84 Plus CE graphing calculator or TI-Nspire™ CX handheld is secured with clamps on top of Rover. A durable, rechargeable battery (included) powers Rover's two motors. The vehicle also includes a color sensor; a distance sensor; an LED display; a holder for a marker to draw paths on paper; and a gyroscope to measure heading. Hardware Aluminum vehicle chassis Rechargeable battery Two drive wheels with independent motors High-resolution motor shaft encoder sensors Marker holder Front-mounted ranger Gyroscope Bottom-mounted color sensor Red-green-blue (RGB) LED Controlled by TI-Innovator™ Hub Compatible graphing technology TI-84 Plus CE graphing calculator TI-Nspire™ CX graphing calculator TI-Nspire™ CX CAS graphing calculator TI-Nspire™ CX II graphing calculator TI-Nspire™ CX II CAS graphing calculator TI-Nspire™ CX Student Software TI-Nspire™ CX CAS Student Software TI-Nspire™ CX Premium Teacher Software Support One-year limited warranty Toll-free help hotline: 1.800.TI.CARES Email help line: [email protected]
This overview provides a collective understanding of terms and buzzwords from service design, design thinking, and customer experience design. ⮕ Read more!
We present 16 customer experience tools that help through each phase of the innovation process, from research to management ⮕ To the toolkit!
Sub-dimensions of Brand-Building blocks
In this session we talked about about the horrible experiences NPS and driver analysis can cause, and the importance of controlling. ⮕ Learn more!
Most of the time I don’t like too woolly theories that practically don’t make any difference at all to what you get. I am sure that a lot of companies that use this theory all the time …
Learn more about how to implement service design in your organization and what role a service designer has. ► Read the article now!
Visuals such as charts and matrices can help practitioners base important decisions on objective, relevant criteria instead of subjective opinions.
We felt almost fashionable when we first used one of these terms, and if you are in the design field, you’ve probably asked at some point, what is the difference between them? I recently heard…
MPS report
Examples of customer journey maps from the fields like marketing, finance, healthcare, and many more ⮕ View the example maps!
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Learn what customer journey mapping is, how to create a journey map with tools, and what tips experts have. ⮕ Learn the basics of CJM!
Looking for templates of customer journey maps, persona, and stakeholder maps to conduct an exquisite customer journey workshop? ⮕ Download free templates!
Go beyond a boring vision statement and instead design a compelling vision that engages customers and inspires your team using visual tools