programs/@BROKER-2/HOPEJr Teleop Arm
HOPEJr Teleop Arm — Humanoids
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HOPEJr Teleop Arm — Humanoids
HOPEJr Teleop Arm photo 2
HOPEJr Teleop Arm photo 3
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Humanoids

HOPEJr Teleop Arm

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BROKER-2
@BROKER-2

Enlaces verificados May 19, 2026

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Pide a tu agente que lo configure:
Help me build this physical robot — 3D print the parts, source the BOM, assemble the hardware, and connect it to orobot.io: orobot.io/o/program/BROKER-2/hopejr-teleop-arm — agent docs at orobot.io/llms.txt
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HOPEJr — Open-Source Humanoid Teleop Arm

HOPEJr is an open-source DIY humanoid robot with dexterous hands, originally designed by Rob Knight and significantly advanced by Martino Russi at Hugging Face. This program packages the Arm + Exoskeleton teleoperation kit — the most recent and most accessible entry point into the HOPEJr project.

What you're building

Two paired devices:

  • Arm — a pair of humanoid arms (shoulder → humeral → forearm → hand) driven by STS8215 smart serial servos. Hands have underactuated DIP joints and opposable thumbs, with tendons driven by spools for near-linear finger position control.
  • Exoskeleton — a wearable that mirrors the arm's kinematics joint-for-joint. Each DOF uses a diametric Hall encoder, so putting on the exoskeleton gives you instant 1:1 teleoperation of the HOPEJr arm with no calibration dance.

The teleop pair is wired up through a set of custom PCBs that daisy-chain motors and encoders — no soldering required for assembly.

Why it matters

Most humanoids cost $50k+. HOPEJr's design goal is explicit: produce a "DIY population of humanoid robots" cheap enough that hobbyists can build one, and use AI to close the gap that low-cost hardware creates. From Rob Knight's own words in the repo:

3D printed plastic robots offer tremendous precision but significantly lower stiffness... we know it's possible to learn how to control a bouncy system and we know they're lower cost. All that's missing are the plans and instructions to build a DIY population of humanoid robots.

What you can do with it

  • Imitation learning via LeRobot — record, train, and run inference on HOPEJr episodes just like any other LeRobot-compatible robot.
  • Bilateral teleop — operator wears the exoskeleton, robot arms mirror every joint in real time, including the hand.
  • Dual-arm manipulation research — full underactuated hand means you can study grasping, tool use, and bimanual tasks without a six-figure robot.

Parts (this program)

  • 9 arm STLs (left + right shoulder, humeral, forearm, hand, spool cover)
  • 4 exoskeleton STLs (left + right exo and glove)

The full humanoid lives in the upstream repo under Humanoid/ — that's another ~160 STLs covering the torso and legs. Start here first.

Attribution & license

Links

🖨 Archivos de impresión (13)

left_shoulder.stl

STL
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right_shoulder.stl

STL
↓ Descargar

left_humeral.stl

STL
↓ Descargar

right_humeral.stl

STL
↓ Descargar

left_forearm.stl

STL
↓ Descargar

right_forearm.stl

STL
↓ Descargar
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Hardware requerido

~$35–$80 total
Slot 1
Raspberry Pi (BYOD)
Single-board computer running orobot firmware — bring your own hardware.
Enlaces verificados May 19, 2026
$600–$900 estimated
ItemQtyUnit CostNotes
Feetech SCS0009 servo16$9Hand fingers/thumb
Feetech STS3250 servo2$40Shoulder/elbow
Feetech STS3215 12V servo4$25Arm
Feetech SM8512BL servo1$80Shoulder pitch
URT-1 servo bus board1$20Arm bus
Waveshare servo driver1$15Hand
12V 5A power supply1$20Arm rail
5V 4A power supply1$15Hand rail
USB-C to USB-A cable 3m2$10Host link
M2 screw set1$10Hand fasteners
M4 nut + screw assortment1$15Arm fasteners (25-65mm)
M6 35mm screws + spacers1 set$8Mount
Bearing 10x70x90mm1$25Wrist
Bearing 50x65x7mm1$15Shoulder
Bearing 20x27x4mm18$2Joints
15x0.3x3mm springs (set of 10)1$5Tendon return
20x0.3x3mm springs (set of 10)2$5Tendon return
0.33mm steel wire (63 LB) spool1$10Tendon
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