RoboParty: Hands-On Assembly + Open-Source Robotics Deployment Workshop 机器人组装 + 开源代码部署工作坊(Mushanghai Pass Needed)
ROBOTO 实操工坊:组装 + 开源代码部署
📅 2026年5月25日 周一 · 13:00–16:00
📍 上海·阿里巴巴 T2 园区
🛠 主办:RoboParty 萝博派对
🌐 上海机器人周启动日活动
👥 限 20 人 · 需申请 · 自带电脑
温馨提示:参与本场工坊需持有 muShanghai 有效入场凭证,可购买 Full Pass 月票或当日 Day Pass 日票入场。
作为 2026 年上海机器人周启动日活动之一,RoboParty 将于 5 月 25 日下午举办一场动手实操工坊。
本次工坊以 ROBOTO Origin 为对象,提供准成品模组与完整的开源代码库。在 3 小时内,参与者将在 RoboParty 工程师的指导下完成核心模组组装,并基于开源代码库完成"动作录制 → 模仿学习 → 部署执行"的完整闭环 —— 让组装好的机器人真正动起来。
工坊面向有动手意愿的开发者与产业从业者,强调理解整机研发链路从硬件到算法的衔接,而非演示展示。
议程
13:00–13:30 · 签到 · 工具与套件领取 每位参与者将获得 ROBOTO 准成品模组一套。开源代码库本地环境会在签到时同步配置完成。
13:30–14:30 · 环节一 · 极速组装
在工程师带领下完成两步:
关节模组组装 —— 同步讲解关节模组的设计逻辑与选型考量,这是 ROBOTO 整机性能的核心组件
外壳组装 —— 完成机器人本体形态搭建
14:30–15:00 · 茶歇 · 整机检查 工程师将逐台检查接线、电源与通讯,确保后续部署环节不因硬件问题受阻。
15:00–16:00 · 环节二 · 现场部署 + 闭环演示
基于 RoboParty 开源代码库,跑通完整 pipeline:
录制目标动作
使用开源训练代码完成模仿学习
部署至本场组装的机器人
验证机器人执行录制动作
工坊结束时,每位参与者将完整经历从硬件到算法的研发链路,建立对开源人形机器人研发流程的直观理解。
自带物品
笔记本电脑(Linux 或 Mac,具备 ROS2 使用经验为佳)
组装工具、零件套件、电源与调试设备由主办方提供。
关于 ROBOTO Origin
ROBOTO Origin 是 RoboParty 于 2026 年 1 月发布的双足人形机器人原型机:身高 1.2 米、体重 30 公斤、奔跑速度 3m/s,搭载自研 AMP 拟人化步态算法。该项目在硬件结构、电气电控、训练框架与部署系统层面实现全栈开源。本次工坊使用的为 ROBOTO Origin 真实模组组件,非简化或教学版本。
适合申请的人群
机器学习 控制 嵌入式方向工程师
硬件方向创业者
高校或实验室相关研究人员
对人形机器人有持续关注、希望进行实操的开发者
不要求机器人专业背景,但工坊涉及实际组装与命令行操作,建议申请者具备基础动手能力与调试经验。
申请方式
工坊限 20 人,采取申请审核制。请于报名时简要回答以下两个问题(每题 1–2 句即可):
个人背景:当前工作内容与技术栈
申请动机:希望通过本次工坊获得的具体收获
主办方将于活动前一周确认入选名单。考虑到硬件与人力投入,将优先安排具备实操意愿的申请者。
同日相关活动
当日上午 10:00–11:00 设有 RoboParty 主题 Panel(免费开放),围绕开源人形机器人在工业设计、硬件选型与开源生态三个方向的工程实践展开。建议工坊申请者一并参加。
🔗 GitHub: github.com/Roboparty
🌐 官网: roboparty.com
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ROBOTO Hands-On Workshop: Assembly + Open-Source Deployment
📅 Monday, May 25, 2026 · 13:00–16:00
📍 Alibaba T2 Building, Shanghai
🛠 Hosted by RoboParty
🌐 Shanghai Robotics Week Kickoff Event
👥 Capped at 20 · Application required · Bring your laptop
Note: Admission to this workshop requires a valid muShanghai Full Pass (month pass) or Day Pass.
As part of the Shanghai Robotics Week 2026 kickoff, RoboParty will run a hands-on workshop on the afternoon of May 25.
The workshop centers on ROBOTO Origin, with pre-built modules and the full open-source codebase provided. Over three hours, participants will assemble core modules under the guidance of RoboParty engineers and complete the full motion capture → imitation learning → live deployment loop using the open-source pipeline — running real motion on the robot they just built.
The workshop is designed for developers and industry practitioners who want to engage with the full hardware-to-algorithm pipeline, rather than observe a demonstration.
Agenda
13:00–13:30 · Check-in · tools and kits Each participant receives a ROBOTO module kit. Local development environments for the open-source codebase will be staged during check-in.
13:30–14:30 · Part 1 · Rapid Assembly
Engineer-guided, in two stages:
Joint module assembly — with concurrent walkthrough of joint module design rationale and component selection, the core of ROBOTO's overall performance
Shell assembly — completing the robot's physical form
14:30–15:00 · Tea break · system check Engineers will inspect each unit's wiring, power, and communications to ensure the deployment phase isn't bottlenecked by hardware issues.
15:00–16:00 · Part 2 · Live Deployment
Using RoboParty's open-source codebase, run the full pipeline:
Record a target motion
Run imitation learning via the open-source training stack
Deploy to the robot assembled in this session
Validate the robot executing the recorded motion
By the end of the workshop, participants will have moved through every layer of the humanoid R&D pipeline, from hardware to algorithm, and developed a working understanding of open-source humanoid development.
What to bring
A laptop (Linux or Mac; ROS2 experience preferred)
Assembly tools, parts kits, power supplies, and debugging equipment are provided.
About ROBOTO Origin
ROBOTO Origin is RoboParty's bipedal humanoid prototype, released in January 2026: 1.2m tall, 30kg, capable of running at 3m/s, powered by RoboParty's self-developed AMP anthropomorphic gait algorithm. The project is fully open-sourced across hardware structure, electrical and electronic control, training framework, and deployment system. The workshop uses real ROBOTO Origin components — not simplified or instructional versions.
Who should apply
ML controls embedded engineers
Hardware founders
University and research lab personnel
Developers with sustained interest in humanoid robotics seeking hands-on experience
No robotics-specific background required, but the workshop involves physical assembly and command-line operation. Applicants should be comfortable with hands-on troubleshooting.
How to apply
The workshop is capped at 20 participants and requires application review. Please briefly answer the following at registration (1–2 sentences each):
Background — current work focus and technical stack
Motivation — what you specifically hope to take away
The participant list will be confirmed one week before the event. Given the hardware and staffing involved, priority will go to applicants with demonstrated hands-on intent.
Related Event
The same morning (10:00–11:00) features the RoboParty Panel — free and open — covering engineering practice in industrial design, hardware selection, and open-source ecosystems. Workshop applicants are encouraged to attend both.
🔗 GitHub: github.com/Roboparty
🌐 Website: roboparty.com