WebRTC Conference Japan 2016 (2016年2月16日) の講演資料です。
発表者は中蔵聡哉と大津谷亮祐 http://www.slideshare.net/rotsuya です。
“Telexistence Robot controlled with WebRTC”
It's the presentation slides at WebRTC Conference Japan on Feb 16, 2016.
The presenters were Toshiya Nakakura and Ryosuke Otsuya http://www.slideshare.net/rotsuya .
The document introduces ros_whill, an open source ROS package for the WHILL personal electric vehicle. It provides joystick control, sensor data like joint states, battery status, IMU readings and odometry. The package works with ROS2 and there are plans to improve ROS2 support. WHILL is hiring for roles involving ros_whill and ROS2 integration.
Y Combinator 風の3分ピッチテンプレートです。初期のスタートアップには以下の構成をお勧めしています。
1. Problem
2. Solution
3. Market Size
4. Traction
5. Unique Insight
6. Business Model
7. Team
UTokyo 500k 用のテンプレートとして作成しました。
This document discusses Veriloggen, a Python framework for generating Verilog HDL code from Python. It allows designing hardware at the register-transfer level using Python by mapping Python constructs to Verilog modules, always blocks, wires, and other Verilog constructs. Veriloggen includes modules for RTL generation (Core), connecting Python threads to finite state machines (Thread), and defining streaming hardware (Stream). It aims to support a "Veriloggen for DSL X" approach to create domain-specific hardware description languages in Python.
This document discusses using micro:bit to solve math problems involving sequences. It provides an example problem of counting the number of black pieces in a triangular arrangement over 50 layers. This can be solved either through a formula approach as it is an arithmetic sequence, or through a programming approach by observing the pattern and coding the logic. The document demonstrates both approaches, with the formula solution being faster but programming able to solve it without a formula by iterating through loops. The key lessons are that programming helps train logical thinking and problem solving even without memorizing syntax, and both math formulas and coding can be used to arrive at the right solution.
WebRTC Conference Japan 2016 (2016年2月16日) の講演資料です。
発表者は中蔵聡哉と大津谷亮祐 http://www.slideshare.net/rotsuya です。
“Telexistence Robot controlled with WebRTC”
It's the presentation slides at WebRTC Conference Japan on Feb 16, 2016.
The presenters were Toshiya Nakakura and Ryosuke Otsuya http://www.slideshare.net/rotsuya .
The document introduces ros_whill, an open source ROS package for the WHILL personal electric vehicle. It provides joystick control, sensor data like joint states, battery status, IMU readings and odometry. The package works with ROS2 and there are plans to improve ROS2 support. WHILL is hiring for roles involving ros_whill and ROS2 integration.
Y Combinator 風の3分ピッチテンプレートです。初期のスタートアップには以下の構成をお勧めしています。
1. Problem
2. Solution
3. Market Size
4. Traction
5. Unique Insight
6. Business Model
7. Team
UTokyo 500k 用のテンプレートとして作成しました。
This document discusses Veriloggen, a Python framework for generating Verilog HDL code from Python. It allows designing hardware at the register-transfer level using Python by mapping Python constructs to Verilog modules, always blocks, wires, and other Verilog constructs. Veriloggen includes modules for RTL generation (Core), connecting Python threads to finite state machines (Thread), and defining streaming hardware (Stream). It aims to support a "Veriloggen for DSL X" approach to create domain-specific hardware description languages in Python.
This document discusses using micro:bit to solve math problems involving sequences. It provides an example problem of counting the number of black pieces in a triangular arrangement over 50 layers. This can be solved either through a formula approach as it is an arithmetic sequence, or through a programming approach by observing the pattern and coding the logic. The document demonstrates both approaches, with the formula solution being faster but programming able to solve it without a formula by iterating through loops. The key lessons are that programming helps train logical thinking and problem solving even without memorizing syntax, and both math formulas and coding can be used to arrive at the right solution.
Thunder:bit v2.0 與 v1.0 比較 / comparison of Thunder:bit v2.0 and v1.0台灣程式教育協進會(TCEA)
The document summarizes the differences between Thunder:bit v1.0 and v2.0. Thunder:bit v2.0 has 8 PCA9685 servo motor pins compared to 4 on v1.0. It also adds a buzzer jumper and uses LEGO compatible mounting holes. The MakeCode extension developed for v1.0 is not compatible with v2.0, so users should select the Nexus:bit extension and choose "Thunder:bit v2" instead.