



AlohaMini Dual-Arm Mobile
✓ Links verified Jun 10, 2026
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AlohaMini — Dual-Arm Mobile Manipulation Platform
A miniaturized Aloha-style dual-arm mobile platform with a motorized vertical lift column. Two SO-ARM101 follower arms sit on a shared lift tower mounted to a three-wheel omni base, giving the platform a tabletop-to-floor reach envelope that makes real household-scale manipulation possible at hobbyist cost.
What makes AlohaMini distinctive
Most DIY bi-manual mobile bases have one big gap: they're too short. An SO-ARM on a fixed 20-cm pedestal can't pick up something on the floor or reach a countertop — the workspace is stuck at one height. AlohaMini solves this with a powered vertical lift that raises both arms together, scanning the full vertical reach of a human workspace.
Paired with:
- Two SO-ARM101 follower arms (leader arms for teleop are also included in the STL set)
- A three-omniwheel kiwi drive base (bearing-mounted axles, printed chassis)
- Seeed Studio XIAO + WaveShare Dynamixel bus driver mounts
- Camera wrist mounts on both arms
What you can do with it
- Imitation learning at floor and table height — record bimanual episodes where the arms need to descend to grab something off the floor, then lift to place it on a surface.
- Mobile bimanual teleop — pair with two leader arms (also in the STL set) to drive both follower arms plus the base from a single operator.
- VLA training data collection — the shared base frame + lift + dual arms is close to the canonical "robot" embodiment used in recent VLA papers (RT-2, OpenVLA).
- Household tasks — clearing a dining table, loading a dishwasher, or picking laundry off the floor — all things a fixed-height arm can't attempt.
Printed parts
~60 STLs — dual SO-ARM101 arms (follower grippers + leader handles), motorized lift column, 3-omniwheel base, battery tray, VR teleop handles; see Print Files.
Attribution & license
- Designer: Yi-Teng Li (liyiteng)
- Upstream: https://github.com/liyiteng/AlohaMini
- License: Apache 2.0
- Built on: SO-ARM101, LeKiwi base geometry, and the ALOHA/ALOHA2 dual-arm research lineage from Stanford
Links
- Upstream: https://github.com/liyiteng/AlohaMini
- LeRobot: https://github.com/huggingface/lerobot
- ALOHA paper: https://tonyzhaozh.github.io/aloha/
Build Guide
Hardware assembly guide (BOM, wiring, mechanical assembly): github.com/liyiteng/AlohaMini/blob/main/docs/hardware_assembly.md
Printing
This is one complete dual-arm mobile platform: two SO-ARM101 follower arms + two leader arms (for teleop) on a shared lift column over a 3-omniwheel base. The 20 STLs use a role-prefix naming scheme, and most are printed in multiples — printing one of each gives only a fraction of a build. Quantities below are per platform:
D_ — shared SO-ARM101 arm parts (print 4× each: 2 followers + 2 leaders):
-
D_Base_SO101_Lekiwi, D_Base_motor_holder_SO101, D_Motor_holder_SO101_Base, D_Motor_holder_SO101_Wrist, D_Rotation_Pitch_SO101, D_Under_arm_SO101, D_Upper_arm_SO101, D_Wrist_Roll_Pitch_SO101, D_Wrist_Roll_SO101
These are the common arm-segment parts every SO-ARM101 needs, so each is printed ×4 (one per arm). The two controller-mount plates are an either/or per your electronics: D_Seeedstudio_Mounting_Plate (Seeed XIAO) vs D_WaveShare_Mounting_Plate (WaveShare bus driver) — print whichever board(s) you use, ×4 if used on all arms.
F_ — follower-only parts (print 2×: one per follower arm):
- F_Follower_Moving_Jaw_SO101, F_Follower_Wrist_Roll_Follower_SO101, F_Follower_SO-ARM101_camera_wrist_mount
L_ — leader-only parts (print 2×: one per leader/teleop handle):
- L_Leader_Handle_SO101, L_Leader_Trigger_SO101
OB_ — omni-base (kiwi drive, 3 wheels):
- OB_Chassis_Servo_Mount ×3, OB_Chassis_Bearing_Cover ×3, OB_Chassis_Shaft_Sleeve_12_24 ×3 (one set per omni wheel)
- OB_Chassis_Side_Panel ×2–3 (chassis sides — match to your frame)
So the 20 unique STLs expand to roughly ~60 physical prints (≈4 kg PLA per the BOM). Servo count: 16× STS3215-C018 (4 base + 12 follower arms) and 12× STS3215-C046 (leader arms). Leader and follower parts are both required for teleop data collection — they are not alternates. Note: the lift-column structural parts referenced in the build guide are large and may be cut/printed per the upstream hardware folder; this Print All set covers the arm, gripper, base and teleop-handle parts.
🖨 Print Files (20)
D_Base_SO101_Lekiwi.stl
D_Under_arm_SO101.stl
D_Upper_arm_SO101.stl
D_Rotation_Pitch_SO101.stl
D_Wrist_Roll_Pitch_SO101.stl
F_Follower_Moving_Jaw_SO101.stl
Required Hardware
Actuators & Control
| Item | Qty | Notes | Source |
|---|---|---|---|
| Feetech STS3215-C018 servo (12 V, 1/345) | 16 | Base (4) + follower arms (12) — select C018 variant | AliExpress |
| Feetech STS3215-C046 servo (7.4 V, 1/147) | 12 | Leader arms (both) — select C046 variant | AliExpress |
| Waveshare Bus Servo Controller | 5 | 1 base + 2 follower + 2 leader | Amazon |
| Servo extension cable (SCS 3-pin, 90 cm) | 2 | Bus extension | AliExpress |
Compute & Sensing
| Item | Qty | Notes | Source |
|---|---|---|---|
| Raspberry Pi 5 (≥2 GB) | 1 | Main compute | Amazon |
| Mini USB camera module | 5 | 3 base/top (36×36 mm) + 2 wrist (32×32 mm). Sourcing note: upstream BOM specifies Taobao cameras (no US Amazon link). US/EU builders: ELP 1080p mini USB cameras are widely available on Amazon and AliExpress as drop-in alternatives — verify FOV and resolution match upstream specs before ordering. Allow 2–4 weeks for AliExpress shipping. | Amazon (ELP alternatives) · AliExpress |
| USB-C cable (braided) | 3 | Base (1) + follower (2) | Amazon |
Power & Drive
| Item | Qty | Notes | Source |
B