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PR [
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| | Before PR
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| **Joint range** | Degrees `-180...180°` | **Normalised range** Joints: `–100...100` Gripper: `0...100` |
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| **Zero position (SO100 / SO101)** | Arm fully extended horizontally | **In middle of the range for each joint** |
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| **Boundary handling** | Software safeguards to detect ±180 ° wrap-arounds | No wrap-around logic needed due to mid-range zero |
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* Recorded trajectories created **before** PR
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* Joint angles are offset and incorrectly normalized.
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* Any models directly finetuned or trained on the old data will need their inputs and outputs converted.
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We provide a migration example script for replaying an episode recorded with the previous calibration here: `examples/backward_compatibility/replay.py`.
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Below we take you through the modifications that are done in the example script to make the previous calibration datasets work.
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```diff
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+ key = f"{name.removeprefix('main_')}.pos"
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action[key] = action_array[i].item()
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+ action["shoulder_lift.pos"] = -(action["shoulder_lift.pos"] - 90)
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+ action["elbow_flex.pos"] -= 90
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```
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Let's break this down.
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New codebase uses `.pos` suffix for the position observations and we have removed `main_` prefix:
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```python
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key = f"{name.removeprefix('main_')}.pos"
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```
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For `"shoulder_lift"` (id = 2), the 0 position is changed by -90 degrees and the direction is reversed compared to old calibration/code.
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```python
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action["shoulder_lift.pos"] = -(action["shoulder_lift.pos"] - 90)
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```
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For `"elbow_flex"` (id = 3), the 0 position is changed by -90 degrees compared to old calibration/code.
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```python
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action["elbow_flex.pos"] -= 90
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```
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To use degrees normalization we then set the `--robot.use_degrees` option to `true`.
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```diff
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python examples/backward_compatibility/replay.py \
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--robot.type=so101_follower \
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--robot.port=/dev/tty.usbmodem5A460814411 \
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--robot.id=blue \
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+ --robot.use_degrees=true \
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--dataset.repo_id=my_dataset_id \
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--dataset.episode=0
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```
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### Using policies trained with the previous calibration system
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Policies output actions in the same format as the datasets (`torch.Tensors`). Therefore, the same transformations should be applied.
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To find these transformations, we recommend to first try and and replay an episode of the dataset your policy was trained on using the section above.
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Then, add these same transformations on your inference script (shown here in the `record.py` script):
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```diff
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action_values = predict_action(
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observation_frame,
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policy,
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get_safe_torch_device(policy.config.device),
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policy.config.use_amp,
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task=single_task,
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robot_type=robot.robot_type,
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)
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action = {key: action_values[i].item() for i, key in enumerate(robot.action_features)}
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+ action["shoulder_lift.pos"] = -(action["shoulder_lift.pos"] - 90)
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+ action["elbow_flex.pos"] -= 90
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robot.send_action(action)
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```
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If you have questions or run into migration issues, feel free to ask them on [Discord](https://discord.gg/s3KuuzsPFb)
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