The detail about end-effector frame is pretty critical as doing this BC with joint angles would not be tractable. You can tell there was a big shift from the RL approaches trying to do very generalizing algorithms to more recent works that are heavily focused on this arms/manipulators because end-effector control enables more flashy results.
Another limiting factor is that data collection is a big problem: not only will you never be sure you've collected enough data, they're collecting data of a human trying to do this work through a janky teleoperation rig. The behavior they're trying to clone is of a human working poorly, which isn't a great source of data! Furthermore limiting the data collection to (typically) 10Hz means that the scene will always have to be quasi-static, and I'm not sure these huge models will speed up enough to actually understand velocity as a 'sufficient statistic' of the underlying dynamics.
Ultimately, it's been frustrating to see so much money dumped into the recent humanoid push using teleop / BC. It's going to hamper the folks actually pursing first-principles thinking.
Another limiting factor is that data collection is a big problem: not only will you never be sure you've collected enough data, they're collecting data of a human trying to do this work through a janky teleoperation rig. The behavior they're trying to clone is of a human working poorly, which isn't a great source of data! Furthermore limiting the data collection to (typically) 10Hz means that the scene will always have to be quasi-static, and I'm not sure these huge models will speed up enough to actually understand velocity as a 'sufficient statistic' of the underlying dynamics.
Ultimately, it's been frustrating to see so much money dumped into the recent humanoid push using teleop / BC. It's going to hamper the folks actually pursing first-principles thinking.