Hold versus Pan Mode: Difference between revisions

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Generally speaking there are two kinds of gimbals, either a Handheld gimbal or one mounted in a copter. The main difference is if the camera should remain stable in relationship to the ground (hold mode) or in relationship to the gimbal frame (pan mode). This decision is to be made for each of the three axis independently.
Generally speaking there are two kinds of gimbals, either a hand-held gimbal or one mounted on a flying vehicle such as a copter. As regards the gimbal behavior two situations can be distinguished: The camera should remain stable in relationship to the ground (hold mode) or in relationship to the gimbal frame (pan mode). This decision can be made for each of the three axes independently.


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== What does stabilization mean? ==
== What does stabilization mean? ==
There are three places where these settings are made, the [Functions], [Gimbal Setup] and [Main] Tab.
The term "Stabilization" might mean different things depending on the use case and the axis we talk about even. Imagine you have put your camera on a tripod and now you try to rotate the camera 360° for a panorama shot.
In "pan" mode the goal is a stabilization in the sense of removing camera shakes but in general terms turn with the tripod. In other words, the yaw axis stabilization acts like a virtual tripod.
The other kind is called the "hold" mode, meaning no matter what you do, the camera will hold its position. In that case, no matter what direction you point to with the tripod, the camera will compensate this movement, it will remain static, hold its initial position relative to the ground.


== Hold versus Pan ==
The term "stabilization" might mean different things depending on the application, and even on the axis we talk about.  
Which setting you want on what axis is defined in the [Functions] tab, the [Pan Mode Default Setting].
 
The common setting is "hold hold pan" in order to lock the camera in pitch and roll but allow yaw movements. And this makes sense normally, as what should happen if you accidentally tilt the camera forward to the ground? Nothing should happen, it should compensate that unwanted movement and keep the horizon in the camera on the same level. Same thing with roll, just because you do not hold the gimbal perfectly level, the horizon should tilt to one side? No, the goal of the gimbal is to keep the horizon level.
Imagine you have put your camera on a tripod and are now trying to rotate the camera by 360° for a panorama shot. In "pan" mode the goal is a stabilization in the sense of removing camera shakes but in overall to follow the turn of tripod. In other words, the yaw axis stabilization acts like a virtual tripod. The other type is called "hold" mode, meaning no matter what you do, the camera will hold its current position. Here, no matter what direction you point at with the tripod, the camera will compensate this movement and will remain static, i.e. hold its initial position relative to the ground.
On yaw movements however, if you would have turned on the hold mode, you would film after a 180° movement the gimbal frame as the frame did move, the camera remained stable relative to ground. Does not make much sense.
So this "hold hold pan" setting does make sense for most cases, copters and hand held devices.


Now imagine a hand held gimbal used in the mountains. Since the pitch is set to "hold" in the default, you would either film the ground or the mountains on the other side of the valley. The only way to adjust the pitch would be via the joystick which would be inconvenient. The alternative would be to enable pan on the pitch axis, to use "pan hold pan" as the default. Then the gimbal would dampen any shakes in the pitch axis but in general you can point the camera up and down by moving the gimbal frame.
The parameters to adjust all this are found at three places in the GUI, the [Functions], [Gimbal Setup] and [Main] tabs.


A completely different example would be the gimbal built into an airplane and you want to record movies from the pilots point of view. If the plane is pointing downwards the camera should look downwards, when the plane is flying a right turn the horizon should tilt. The only task of the gimbal is to remove shakes and allow the "pilot" to look left/right/up/down. That would ask for the [Pan Mode Default Setting] of "pan pan pan".
== Hold versus Pan ==


[[File:3functions.png|480px]]
Which mode you want for which axis is defined in the [Functions] tab via the [Pan Mode Default Setting].


== Fine tuning the Pan mode ==
The standard setting is "hold hold pan" in order to lock the camera in pitch and roll but allow yaw movements. This is, for most situations, the appropriate setting: What should happen if you accidentally tilt the camera forward to the ground? Nothing should happen, i.e. the gimbal should compensate this unwanted movement and keep the horizon in the camera at the same level. Same thing with the roll axis. Just because you do not hold the gimbal perfectly level, the horizon should tilt to one side? No, the horizon should be kept level. For yaw movements, however, a different behavior is normally desired. If you would have turned on the hold mode for yaw and would turn the gimbal by 180°, you would film the gimbal frame since the camera would remain stable relative to ground. Does not make much sense. Instead the camera should have followed the 180° turn, which is achieved by "pan". So this "hold hold pan" setting does make sense for most cases, both for copters and hand-held devices.


The obvious next question would be how the controller differentiates between unwanted shakes versus true movements? In the [Main] tab are the settings [Pitch Pan], [Roll Pan] and [Yaw Pan]. A zero means that the pan mode is deactivated, i.e. that the axis is in hold mode (also known as locked mode) even if "pan" was selected. A non zero value means pan mode, whereby a larger pan value means a faster following. And in hold mode the value for pan has no effect.
Now imagine a hand-held gimbal used in the mountains. Since the pitch is set to "hold" as default, you would either film the ground or the mountains on the other side of the valley, but not your target maybe 15° higher. One way to adjust the pitch would be via the joystick, which however would be inconvenient. An alternative is to enable pan on the pitch axis, and use "pan hold pan" for the [Pan Mode Default Setting] parameter. Then the gimbal would dampen any shakes in the pitch axis but in general you can point the camera up and down by moving the gimbal frame.


A completely different example would be a gimbal mounted in an airplane and to record movies from the pilots point of view. If the plane is pointing downwards the camera should look downwards, when the plane is flying a right turn the horizon should tilt. The only task of the gimbal is to remove shakes and allow the "pilot" to look left/right/up/down. That would ask for the [Pan Mode Default Setting] of "pan pan pan".


[[File:1main.png|480px]]
'''''Comment:''' It is strongly adviced against using a brushless gimbal as FPV camera! The purpose of the example was just to explain things.''


The transitions from hold to pan and pan to hold modes, which are possible via e.g. keys connected to the AUX port, present a challenge, since the abrupt accelerations on the camera which may occur in these situations cannot be handled well by the brushless gimbal technique. The acceleration after having switched from hold to pan can be limited or made smoother using the [Hold To Pan Transition Time] parameter.
[[File:3functions.png|480px]]


== Buttons for switching pan/hold ==
== Fine Tuning the Pan Mode ==


Sometimes it might be desirable to switch from pan to hold or vice versa. To enable this buttons can be connected to Aux-0 and Aux-1. With these buttons you can now switch through four preset pan modes.
The obvious next question would be how the controller differentiates between unwanted shakes versus true movements? In the [Main] tab the parameters [Pitch Pan], [Roll Pan] and [Yaw Pan] are found with which you determine the follow speeds in pan mode for each axis. A zero means that the follow speed is zero, which effectively corresponds to hold. A non zero value enables the pan mode, whereby a larger pan value means a faster following.  


Pan Mode Control = Aux-01 press (meaning that buttons are connected to Aux-0 and Aux-1)
Importantly, if these settings become active or not depends on the [Pan Mode Default Setting] parameter: If "hold" is specified for one axis there, the axis will be in hold mode irrespective of the pan speed value. The [Pan Mode Default Setting] so to say overrides the pan speed setting.


Pan Mode Default Setting = hold hold pan
[[File:1main.png|480px]]
<!--DO NOT DELETE, kept here to move to somewhere lese later!The transitions from hold to pan and pan to hold modes, which are possible via e.g. keys connected to the AUX port, present a challenge, since the abrupt accelerations on the camera which may occur in these situations cannot be handled well by the brushless gimbal technique. The acceleration after having switched from hold to pan can be limited or made smoother using the [Hold To Pan Transition Time] parameter.-->


Pan Mode Setting #1 = hold hold hold
== Buttons for Switching Pan/Hold ==


Pan Mode Setting #2 = pan pan pan
Sometimes it might be desirable to switch from pan to hold or vice versa on the fly. To enable this, buttons can be connected to Aux-0 and Aux-1. With these buttons you can now switch through four preset pan modes.


Pan Mode Setting #3 = pan hold pan
* Pan Mode Control = Aux-01 press (meaning that buttons are connected to Aux-0 and Aux-1)
* Pan Mode Default Setting = hold hold pan
* Pan Mode Setting #1 = hold hold hold
* Pan Mode Setting #2 = pan pan pan
* Pan Mode Setting #3 = pan hold pan


If neither of the two buttons connected to Aux-0 and Aux-1 are pressed, or switched on, then the Pan Mode Default Setting is active. In our example it selects the "hold hold pan" default. This means that the pitch and roll axes will be in hold mode.
If neither of the two buttons connected to Aux-0 and Aux-1 are pressed, or switched on, then the Pan Mode Default Setting is active. In our example it selects the "hold hold pan" default. This means that the pitch and roll axes will be in hold mode.
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== Hand-held versus Copter ==
== Hand-held versus Copter ==


And then there is the [Gimbal Setup] tab, the [Gimbal Configuration] field where you can choose between "copter" and "hand held". This setting has actually nothing to do with the stabilizing of the gimbal as such at the moment, it is more meant as a global switch to turn on and off functionality that does not make sense in the one or the other case. In "copter" mode for example the standby switch is turned off to avoid any accidents.
Finally, there is the [Gimbal Setup] tab, with the [Gimbal Configuration] field where you can choose between "copter" and "hand held". This setting has actually nothing to do with the stabilizing modes of the gimbal, it is more meant as a global switch to turn on and off some functionality that does not make sense in the one or the other case. In "copter" mode for example the standby switch is turned off to avoid any accidents. Also, all keys and the joystick are disabled.


[[File:4gimbalsetup.png|480px]]
[[File:4gimbalsetup.png|480px]]
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== Next step ==
== Next step ==


Configure the  [[Configure the Functions|remaining functions]] in the tab for remote controlling the camera and the such.
You have learned now all relevant settings which you need to record great shots in various typical situations. The STorM32-BGC provides however some more possibilities, such as remote camera control or bluetooth connectivity. Go ahead, explore.

Revision as of 10:17, 13 May 2014

Generally speaking there are two kinds of gimbals, either a hand-held gimbal or one mounted on a flying vehicle such as a copter. As regards the gimbal behavior two situations can be distinguished: The camera should remain stable in relationship to the ground (hold mode) or in relationship to the gimbal frame (pan mode). This decision can be made for each of the three axes independently.

What does stabilization mean?

The term "stabilization" might mean different things depending on the application, and even on the axis we talk about.

Imagine you have put your camera on a tripod and are now trying to rotate the camera by 360° for a panorama shot. In "pan" mode the goal is a stabilization in the sense of removing camera shakes but in overall to follow the turn of tripod. In other words, the yaw axis stabilization acts like a virtual tripod. The other type is called "hold" mode, meaning no matter what you do, the camera will hold its current position. Here, no matter what direction you point at with the tripod, the camera will compensate this movement and will remain static, i.e. hold its initial position relative to the ground.

The parameters to adjust all this are found at three places in the GUI, the [Functions], [Gimbal Setup] and [Main] tabs.

Hold versus Pan

Which mode you want for which axis is defined in the [Functions] tab via the [Pan Mode Default Setting].

The standard setting is "hold hold pan" in order to lock the camera in pitch and roll but allow yaw movements. This is, for most situations, the appropriate setting: What should happen if you accidentally tilt the camera forward to the ground? Nothing should happen, i.e. the gimbal should compensate this unwanted movement and keep the horizon in the camera at the same level. Same thing with the roll axis. Just because you do not hold the gimbal perfectly level, the horizon should tilt to one side? No, the horizon should be kept level. For yaw movements, however, a different behavior is normally desired. If you would have turned on the hold mode for yaw and would turn the gimbal by 180°, you would film the gimbal frame since the camera would remain stable relative to ground. Does not make much sense. Instead the camera should have followed the 180° turn, which is achieved by "pan". So this "hold hold pan" setting does make sense for most cases, both for copters and hand-held devices.

Now imagine a hand-held gimbal used in the mountains. Since the pitch is set to "hold" as default, you would either film the ground or the mountains on the other side of the valley, but not your target maybe 15° higher. One way to adjust the pitch would be via the joystick, which however would be inconvenient. An alternative is to enable pan on the pitch axis, and use "pan hold pan" for the [Pan Mode Default Setting] parameter. Then the gimbal would dampen any shakes in the pitch axis but in general you can point the camera up and down by moving the gimbal frame.

A completely different example would be a gimbal mounted in an airplane and to record movies from the pilots point of view. If the plane is pointing downwards the camera should look downwards, when the plane is flying a right turn the horizon should tilt. The only task of the gimbal is to remove shakes and allow the "pilot" to look left/right/up/down. That would ask for the [Pan Mode Default Setting] of "pan pan pan".

Comment: It is strongly adviced against using a brushless gimbal as FPV camera! The purpose of the example was just to explain things.

3functions.png

Fine Tuning the Pan Mode

The obvious next question would be how the controller differentiates between unwanted shakes versus true movements? In the [Main] tab the parameters [Pitch Pan], [Roll Pan] and [Yaw Pan] are found with which you determine the follow speeds in pan mode for each axis. A zero means that the follow speed is zero, which effectively corresponds to hold. A non zero value enables the pan mode, whereby a larger pan value means a faster following.

Importantly, if these settings become active or not depends on the [Pan Mode Default Setting] parameter: If "hold" is specified for one axis there, the axis will be in hold mode irrespective of the pan speed value. The [Pan Mode Default Setting] so to say overrides the pan speed setting.

1main.png

Buttons for Switching Pan/Hold

Sometimes it might be desirable to switch from pan to hold or vice versa on the fly. To enable this, buttons can be connected to Aux-0 and Aux-1. With these buttons you can now switch through four preset pan modes.

  • Pan Mode Control = Aux-01 press (meaning that buttons are connected to Aux-0 and Aux-1)
  • Pan Mode Default Setting = hold hold pan
  • Pan Mode Setting #1 = hold hold hold
  • Pan Mode Setting #2 = pan pan pan
  • Pan Mode Setting #3 = pan hold pan

If neither of the two buttons connected to Aux-0 and Aux-1 are pressed, or switched on, then the Pan Mode Default Setting is active. In our example it selects the "hold hold pan" default. This means that the pitch and roll axes will be in hold mode.

If only the button connected to Aux-0 is pressed/switched on then the Pan Mode Setting #1 is active. In our example all three axes are in hold mode.

If only the button connected to Aux-1 is pressed/switched on then the Pan Mode Setting #2 is active, "pan pan pan" would be activated.

Finally, if both buttons connected to Aux-0 and Aux-1 are pressed/switched on, then the Pan Mode Setting #3 is active, the "pan hold pan" in our example.

Hand-held versus Copter

Finally, there is the [Gimbal Setup] tab, with the [Gimbal Configuration] field where you can choose between "copter" and "hand held". This setting has actually nothing to do with the stabilizing modes of the gimbal, it is more meant as a global switch to turn on and off some functionality that does not make sense in the one or the other case. In "copter" mode for example the standby switch is turned off to avoid any accidents. Also, all keys and the joystick are disabled.

4gimbalsetup.png

Next step

You have learned now all relevant settings which you need to record great shots in various typical situations. The STorM32-BGC provides however some more possibilities, such as remote camera control or bluetooth connectivity. Go ahead, explore.