New Info on 2009 control system, maybe

[ParkerF]

Quote:

Originally Posted by Mike Soukup

Ridiculous.

We used the 1 byte display on the IFI controller for quick pot calibration in the pits and at our practice field and for feedback about our autonomous programs. Now our drivers will have to hook up a laptop instead? Bad move FIRST.

Now I am completely oblivious to the function of any and all electronics with the new DS, but I know there are several output pins on the side. Could these or even one of the USB ports be used to set up a second LCD screen for custom input?

[Kevin Sevcik]

Quote:

Originally Posted by AdamHeard

I agree wholeheartedly. I fear people will assume that because the safety and disable features of the IFI system were so robust and worked so well, that this new system must work the same way (I mean, all control systems must be the same, right? ).

I for one won't be trusting the robot nearly as much as before.

Ahem. I wouldn't be so quick to condemn the safety features of the current control system, really. In particular, the new control system uses a much better philosophy for the disable switch. On the IFI hardware, the disable system was normally open, so you could run the robot without a dongle. This means that you couldn't be certain your disable switch would work when you hit it. You could be fairly sure, since it'd worked the last several times, but if a wire had silently broken, the contacts corroded, a bad solder joint worked loose, or the thing just plain wasn't plugged in... Well you were in for a surprise. The only actual secure option for disabling last year's robot was to pull the tether or radio cables.

The new DS's disable system works on a normally closed principle. Which means that your robot won't run at all unless you have a valid disable switch in place. Or unless you're foolhardy enough to just short the contacts together with a paper clip or something. Broken wires and bad soldering will annoy you with a non-running robot instead of betray you with a robot running amok. And while it's possible for contacts to freeze shorted or be bridged somehow, it's must less likely. If you're really safety minded, you'll get an E-Stop style switch with two physically separated NC contact blocks and wire them in series. So, I think the new system's safety and disable function are as or more robust than IFI's. That's definitely something I'm not going to be worried about.

For the joystick related issues in Joe's post... I think that has to do with the decision to based the DS on a micro Linux platform. What we try to do with joysticks and such presents a unique challenge to the control system, compared to what OS's usually do with USB devices. On a Windows machine, the OS uniquely identifies each USB device and tags settings and functionality to follow it around based on its ID, as opposed to what port it's plugged into. You wouldn't want to have to reconfigure your mouse if you plugged into the top port instead of the bottom port, after all. For the DS we expect it to identify the joystick based on what port it's plugged into. If arm control functionality always followed our steering wheel around after we accidentally plugged it into port #2 the first day, I think we'd all be a bit miffed. Even my limited knowledge of USB driver programming informs me that pinning things to an exact physical port is pretty darn difficult. And it doesn't strike me as at all likely to be amenable to hot-swapping. If it takes the controller 15 seconds for each port to identify the joysticks on boot-up, I don't think you want the process constantly occurring while you're trying to drive.

The problems with old and uninitialized values being sent are slightly more worrisome, but aren't likely to be life-threatening if you're following commonsense operating rules. Also, if the 127 default startup and unplugged joystick values from the IFI OI made you feel safe enough to put yourself in harm's way, then you weren't operating under particularly safe rules in the first place. I mean, 127 isn't a guaranteed safe value for every system on a robot. Pots controlling shooter wheels or telescoping slides are likely safest at 0, not 127. Pots controlling arm positions are likely to be safest at heaven knows what value. To be blunt, if you were trusting your previous robots not to try to kill you just because you were only starting them up or didn't have anything plugged into the joystick ports... You were putting entirely too much faith in Murphy looking the other way. If the new DS makes you more cautious around operating robots, it's probably a good thing.

Finally, I'm confident that a large amount of thought went into making the new system safer than the IFI system. In fact, much of what I heard at the recent training at NI was pointing out the focus on safety as well as features in the new control system. Insinuating it was an afterthought is uncalled for. In addition to the NC disable system, the designers are looking at running practice fields on the 2.4GHz band (the field will run at 5GHz) to eliminate students racing about with tether cables, attempting to both not tangle the cords AND not be run over. The new Jaguar speed controllers have NC limit switches to make devices safer for teams that use them, as well as actual barriers between the positive and negative terminals to reducing shorting. E-Stops will now latch inside the robot instead of the field, so an E-Stopped robot will need to be power cycled before it can become dangerous again. Instead of waiting for someone to plug in a tether cable to do so. I'm certain there's some other features that I haven't recalled at the moment, but this post is probably long enough at is it.

[Mike Soukup]

Quote:

Originally Posted by EricVanWyk

However, I'd like to point out that for doing pot calibration, you will already have your programming laptop connected - it will be easier to probe the variable on the same computer that you will then use to modify your code.

As Adam pointed out, I'm interested in calibrating a pot without changing code, either by reading the value and physically realigning or by saving the center value in eeprom as we've done in the past. It's not an option to have a software member around all the time so pit crew needs to be able to swap a pot without downloading new software. I found myself with much more free time after we added the eeprom code a few years ago.

Quote:

Originally Posted by francistexas

Now I am completely oblivious to the function of any and all electronics with the new DS, but I know there are several output pins on the side. Could these or even one of the USB ports be used to set up a second LCD screen for custom input?

I haven't seen the spec sheet on the DS, but I'm assuming this is possible. If not, then I'll give FIRST another 'Ridiculous' comment. Assuming the DS and rules allow it, our team is certainly capable of creating a secondary display, but many other teams aren't. Even though we can make one, it doesn't mean we want to spend our time on something that should already be provided out of the box.

[Dave Flowerday]

Quote:

Originally Posted by Kevin Sevcik

The new DS's disable system works on a normally closed principle. Which means that your robot won't run at all unless you have a valid disable switch in place.

Kevin, I agree that the normally-open setup of the IFI system was a deficiency (though here was a feedback LED on the OI as I'm sure there will be on the new DS so you could verify it was disabled). However, the switch position is not the only problem. If the new DS can take up to 2 seconds to get the disable command to the robot, that is a problem. A lot of damage (to people or robots) can be done in 2 seconds. I realize this is a problem that they will have to solve before competition (no one will tolerate 2 seconds of lag), but the fact that the bug exists while teams are actively working with it on their robots means that the dangerous situation is already a reality.

Quote:

On a Windows machine, the OS uniquely identifies each USB device and tags settings and functionality to follow it around based on its ID, as opposed to what port it's plugged into.

This is not always true - it is up to the device's driver how to treat it. There are many Windows devices that end up being identified by which port they are plugged into. In some cases, the USB devices have no unique serial number and therefore cannot be identified at all other than by which port they are plugged into.

Quote:

For the DS we expect it to identify the joystick based on what port it's plugged into.

This is built-in functionality of the USB spec. A USB host will only talk to one device at a time. When a computer boots up, it goes through a process called enumeration, which it individually identifies each device one at a time on each port. It inherently knows which device is plugged into which port because of the way the system operates. If you plug in two identical USB devices to a hub at the exact same time, it doesn't matter. The hub indicates to the host that a new device was detected, the host instructs the hub to establish a connection to the new device (in this case the lower port number), and the host sets up the new device. This process is then repeated for the other new device on a different port on the hub.

Quote:

Even my limited knowledge of USB driver programming informs me that pinning things to an exact physical port is pretty darn difficult.

For a USB driver, not hard at all. As previously indicated, it's required. If Linux is used on the DS, then it would be fairly straightforward to implement the necessary means to identify USB devices based on the port they're plugged into.

Quote:

If it takes the controller 15 seconds for each port to identify the joysticks on boot-up, I don't think you want the process constantly occurring while you're trying to drive.

The USB bus generates the equivalent of an interrupt when a new device is connected. The host does not have poll. I have no idea why the DS would take 15 seconds to initialize a device, but I've used plenty of Linux boxes (including small, embedded ones with tiny, slow processors) and none of them took 15 seconds to identify a device.

Quote:

The problems with old and uninitialized values being sent are slightly more worrisome, but aren't likely to be life-threatening if you're following commonsense operating rules. Also, if the 127 default startup and unplugged joystick values from the IFI OI made you feel safe enough to put yourself in harm's way, then you weren't operating under particularly safe rules in the first place.

I would not feel safe intentionally sticking my hand in an enabled robot based on the IFI 127 default value, but I can tell you that I've seen plenty of demos and such where a joystick was accidentally unplugged, and I'm really glad that the robot didn't take off full-reverse when that happened (by reading a 0 instead of 127). It's not hard to imagine a situation where a controller falls off a shelf, gets bumped full-forward or full-reverse, and then gets unplugged (leaving the robot moving that speed under the new DS). Then, in a quick instinct, you hit the disable button only to find out that it is experiencing a 2-second lag... well you get the picture.

Quote:

Insinuating it was an afterthought is uncalled for.

There are demonstrated safety deficiencies in the system that FIRST shipped to beta teams. It is not uncalled for. Someone had to prioritize the things that got developed on the DS, and obviously whatever functionality it has right now was either prioritized over the safety features that it currently lacks such as safe values when a stick is unplugged or was overlooked. Either way I don't think questioning the safety decisions is uncalled for.

FIRST robots are just as dangerous as many machines found in a shop, which typically have mechanical lockout switches and all sorts of other safety implements. Yet, with our robots our safety will depend almost entirely on the firmware in the DS and robot controller. Sure, we have a breaker that we can turn off, but how do you do that if the robot has gone nuts and is spinning dangerously fast in a circle? Being critical of the safety of the new system is in everybody's best interest. This is no time to simply drink the kool-aid. You probably think I'm overreacting, and I honestly hope you're right. If, however, I saw potential flaws in the system and didn't do something to call attention to them and someone got hurt, I would feel awful.

[Kevin Sevcik]

Quote:

Originally Posted by francistexas

Now I am completely oblivious to the function of any and all electronics with the new DS, but I know there are several output pins on the side. Could these or even one of the USB ports be used to set up a second LCD screen for custom input?

Doubtful. You have 8 outputs, and the data is transmitted at 50Hz at best, so bit-banging the outputs isn't likely to work well. The USB ports are thus far only for joysticks and a USB key for firmware upgrades. The Linux OS might recognize anything something else plugged into them, but you won't have any way to interact with it from the cRIO. The only real option is a dashboard laptop/netbook/PDA/whatever. I recall them saying the specification of the dashboard packets were open or would be. If so, you could really use almost anything with a LAN port on it to display things. I mean, most dashboard programs are going to be pretty lightweight. Ebay is currently listing 1,800 <$100 laptops with 1GHz or better processor and at least 512MB of RAM. I know it's not going to be as easy as just dumping a variable or two to the user byte, but an actual dashboard laptop is likely to be a lot more useful.

[AdamHeard]

I agree that the difference in the physical implementation of the disable switch is better, but what happens after that I still won't trust anytime soon.

I *know* when I hit the disable switch on an IFI system, the robot is stopping.

I don't know that about this new system, especially after some of the things that have been happening. I don't care one bit about what it is designed to do, or what should happen when this switch is hit. I care what actually does happen, and if what happens is a 2 second delay after disabling, that can be a very big deal.

Yes, unsafe situations can and should be avoided and relying on the disable isn't the best idea. But in my years of FIRST I know of several times when code was downloaded or a trim was mis-set and the robot just started going/moving a joint and someone had to lunge for the switch and it had to work. Or sometimes even tuning a PID loop on a joint where someone made a programming error and it took off the wrong way; that two seconds could mean great damage tot he robot, or less likely, to a person.

I'm not really criticizing the new system, I'm just hoping people won't be so trusting of it until it has proven it's reliability; I don't think that is one bit uncalled for.

[Kevin Sevcik]

I'd just like to point out that as far as I can tell from what's been said here and on the beta forums, there's no information one way or another on whether this communications lag actually affects the function of the disable switch. That question's been asked on the beta forum, but hasn't been answered yet.

Second, I have to disagree that the joysticks holding the last sample is a safety deficiency. In most situations, this implementation is equivalent to the IFI default value system. If the USB device is controlling something like a PID positioned joint, the holding value implementation is arguably safer than suddenly jumping to any default value. As pointed out, the default value implementation is safer for most drive systems. So I think the new control system's functionality is just as safe or unsafe as IFI's. It's just different. If we want to argue them into changing it, I think it'd make a lot more sense to ask for the functionality that we actually need. As opposed to the functionality that we've grown used to dealing with. What we need is for the API to throw an error and/or return an invalid value when we try to address a joystick or axis that doesn't exist. Returning NaN would be perfect for this, as any operation on NaN returns NaN or false. I'm half certain that the PWM functions will already shutdown an output if they're commanded to output NaN. There's probably a few situations where this wouldn't completely safe things or would adversely affect things long after the joystick is replaced... But overall I think this should be preferred over switch from one less than satisfactory solution to another.

[willson.thomas]

I think the best implementation would be to simply disable the robot if a joystick is disconnected, and to also require a power cycle to re-enable the robot. This would make sure that no bad data/timing error caused by the disable would make the robot behave erratically.

[Kevin Sevcik]

Quote:

Originally Posted by willson.thomas

I think the best implementation would be to simply disable the robot if a joystick is disconnected, and to also require a power cycle to re-enable the robot. This would make sure that no bad data/timing error caused by the disable would make the robot behave erratically.

Problematic and probably overkill. How do you implement default code that doesn't need to be changed to run a robot if missing a joystick means the robot won't run? Plus, disabling the whole robot when a joystick read fails probably takes more work.

[willson.thomas]

Quote:

Originally Posted by Kevin Sevcik

Problematic and probably overkill. How do you implement default code that doesn't need to be changed to run a robot if missing a joystick means the robot won't run? Plus, disabling the whole robot when a joystick read fails probably takes more work.

It would only disable the robot if a joystick, which would have been enumerated at the beginning, produces multiple bad reads in a row. This way it would only disable if a joystick went missing while it was running, it wouldn't check at boot. Or you could have it check for joysticks at boot, and simply have four boolean values that need setting.