I freely admit, right at the start of this post, that I switch cell phones too often. A lot of this is because I try to do a lot with my mobile phone, mostly mail and web based. And I want the thing to work well with my Mac, and to be a phone: I don't really want a two-inch-thick "communication controller" on a belthook.

At the same time, I don't want a tiny screen or a crappy browser, and I need a decent way to input text.

I've had generally good luck with the recent generation Windows Mobile "smartphone" devices (like the T-Mobile Dash, aka the HTC Excalibur), but the version of Internet Explorer in them is pretty limited, and replying to support questions can be frustrating because of those limitations.

Some time ago, I'd purchased a Sony Ericsson M600i, which looked like it was going to be a good'un: good size, design, keyboard and capabilities. Unfortunately, at least 3/4 of a year ago, it seriously sucked. The design is good, but the version of UIQ3 it originally shipped with was buggy beyond words: the email program crashed constantly, disconnected from email, etc. The browser was capable, but it crashed all the time, too. And, to top it off, the thing wouldn't sync with the Mac.

It didn't last long... until I took it back out of the box last week.

After applying Sony Ericsson's recent software update (R9F011 for the curious), UIQ3 has taken a huge step into reliabilityland. All of a sudden, the applications are no longer crashing. Mail, while limited by some boneheaded design choices, works. The web browser has been updated, and it's fast and capable: it even renders some relatively complex stuff on the Shirt Pocket site.

On top of that, Kerio Mailserver has finally implemented support for the M600i's OTA ActiveSync (Exchange) support, so events, mail, contacts, etc are pushed to the device automatically. Combined with a new iSync plugin, the thing works with my Mac pretty well: transparent two-way sync is awfully compelling.

Not phone nirvana, but a nice set of updates combining to deliver a greatly improved experience. It'll be interesting to see how the iPhone measures up. If the "Push" support is only for Yahoo mail (I'm hoping that it properly supports IMAP IDLE), it doesn't do OTA sync, and it doesn't support a vibrant 3rd party community (that gives us Apple Design Award-winning products like Salling Clicker), its cool touchscreen and attractive UI won't really make up for its lack of capability.

Demo vs. reality -- always fun. We'll have to see in June.

tv is in the house -- two of them, actually -- and, well, it's good!

I'm not using it for music much -- my library is much too large for this device, and navigation of large collections, as has been said elsewhere, is quite lacking.

That said, for video material -- movies, tv shows, etc -- it works great. Playback starts quickly, even when streamed, and looks quite good. It's lacking in the audio department (it's really too bad that so much of this material, both movies and TV, encoded with Dolby Digital in full 5.1 or 7.1 surround, are reduced to ancient Dolby Surround playback, with no LFE channel, no split surrounds... much less impact), but visually things look quite reasonable.

It works great with netTunes, too, as you'd expect. As I've said many times, I run with a headless server, and it contains all my music and other content. With netTunes, it's trivial to connect to the server using a laptop while seated on the couch, and "pair" the tv with the server, change the synchronization information, purchase TV shows to be viewed -- all remotely.

I'm happy that the approach I took years ago -- truly remote controlling iTunes with its own interface -- continues to work with new versions of iTunes, and continues to prove it was the right way to go, moving forward with iTunes as iTunes itself changes.

Anyway, great stuff.

One expensive but potentially useful tip: you can use a scan converter to convert from Component input to regular Y/C (S-Video) or Composite, should you not have a component/HDMI capable TV. One example is the TV One AVT-3190 ($389). Expensive, but cheaper than replacing your TV...

The other day, I was pushing at the limits of my existing Infrant ReadyNAS NV setup, and needed to increase its size. Normally, this would be a huge project, but with the ReadyNAS it was incredibly easy to do.

You see, the ReadyNAS uses Infrant's proprietary X-RAID. X-RAID basically RAID 6RAID 5 (see comments, below) with the ability to dynamically increase the total size of the RAID as well.

So, not only will the ReadyNAS run with a single drive faiure (and hot-rebuild the drive), it can dynamically increase the size of the RAID set as well. So, all I had to do was:

1. Buy four drives of the appropriate size. I went from four 250GB drives with a total size of about 700GB, to four 500GB drives with a total size of about 1.6TB.

   The reason you don't get "all" the space on the drives is because redundant information is spread across each drive that allows any drive that goes "down" to be replaced and rebuilt with no data loss.

2. With the ReadyNAS on, and in use, pull out the first of the four drives.

   Yeah. Scary. But that's what to do!

3. Unscrew the four screws that attach the SATA drive to the tray from and attach it to the new.

4. Slide the new drive into place.

   At this point, the ReadyNAS will automatically rebuild the data that was on the original drive on this new drive. All of this has been done with the unit on and operating.

5. Wait for the rebuild to complete (it'll send you email when it's done).

6. Repeat with the next drive.

Yeah. That's it. When you're done, you do need to restart the ReadyNAS to get the volume to expand, but that can be postponed until you're ready to do it... and that's the only time the unit is "down".

Pretty cool, eh?

(Yeah, I know I sound like a pitchman for Infrant, but I'm honestly not affiliated with them in any way at all. I just think it's a great product.)

Many of you probably know that, for some reason, iSight cameras can get into a weird state where they start causing serious errors with FireWire drives.

The symptoms usually include a bunch of I/O errors while copying to a FireWire drive: failed copies, flaky behavior, crashes. All of this goes away if you power off, disconnect the iSight, wait a while and power back up.

Sometimes, the iSight stops working with iChat (it says the camera's in use when it's not, or the light comes on, but you don't get any picture), and in it was in that second state today when I had a kernel panic.

No data was lost, I'm happy to say, but I decided that I've had enough of this. Since 10.4.9 supports USB cameras, I've switched to a Logitech QuickCam Ultra Vision. (All they need to do is add Super Deluxe Extreme Edition to the end to make it really cool!)

It's not as elegant as the original iSight (it's fixed focus, horizontal format, a bit gaudy), but it's got a nice wide angle lens, built in microphone, works with any monitor, and seems reliable. Plug the thing in, and it works.

Given that you can't buy "real" iSights any more, and based on direct experience, I give it a thumbs-up.

Sorry, iSight. I'll miss you!

When the new Airport Extreme Base Station came out, I was happy to see that it had some support for attached USB drives. It's a reasonable (though not perfect) way to share data in a home/SOHO situation, and I figured people would be using it to back up with SuperDuper! So -- to help out...

General Comments

A few things to point out right off the bat:

• As you've likely seen elsewhere, the Airport Disks are not fast. Don't expect blazing speeds: wired, I've seen a maximum of about 1.5MB/s.

• The AEBS gets very, very cranky if you get to a disk full situation. I've seen it crash more than once. Don't do that.

• Remember that HFS+ drives are made available through AFP, and FAT32 through SMB.

  Don't format any drives you're going to use with SuperDuper! as FAT32: use HFS+ (and partition properly for the Mac processor type you're using -- GUID for Intel, Apple Partition Map for Power PC).

• Make sure to connect a power supply to the drive.

• As general advice, please don't cheap out when you get an external drive. Really. Get one with a real Oxford chipset, USB/FireWire if possible in case you want to attach it directly to your Mac.

• Don't expect miracles. This is an inexpensive solution, and it behaves like one. If you want a real NAS, I suggest an Infrant ReadyNAS NV+: it's faster, redundant, recoverable. I'll have another post about the ReadyNAS soon.

• Remember, this is a first generation ("Rev A") product. It's likely to go through teething pains. Don't rely on them as your only backup!

Using Airport Disks with SuperDuper!

You'll note that your Airport Disks don't show up in the SuperDuper! pop-ups. This is by design: we can't currently copy directly to or from a network volume due to authentication/permission/metadata issues.

Instead, you'll follow the steps in Backing up over a network in the SuperDuper! User's Guide (Help > User's Guide), and back up to a read/write sparse image stored on the Airport Disk.

We often get asked why SuperDuper! can't back up directly to a network volume. What most people don't realize is that, for security reasons, you can't directly authenticate as "root" over a network, and that means it's not possible to store files with system ownership on a network drive.

An image, on the other hand, acts as a "local drive", and can be authenticated against, even though it's stored remotely. This ensures that your files are backed up with full fidelity, including proper ownership and permissions. And since it's formatted as HFS+, it avoids various situations that can ensue trying to emulate HFS+ semantics and metadata storage on a non-HFS+ drive, while still storing in a native, non-proprietary, Mac-native format.

I'd suggest doing your first full backup directly to the USB drive, rather than over the network. This'll be a lot faster. You can then connect the drive to the base station, and re-select the image using the "Disk Image..." choice in SuperDuper!'s destination drive pop-up. (Note that although the image will be grey, you can still pick it, and ignore the "overwrite" warning. Yes, I know that UI sucks.)

That should do it: enjoy the base station!

It wasn't that long ago that HP had the absolute worst OSX drivers of any major peripheral developer. Their scanners barely worked, their printers sort of worked, the software they loaded was pretty shamefully buggy, flaky... they just sucked.

So, imagine my surprise when -- after a recent Mac purchase at the Apple Store -- I decided to get a "free" HP C6180 all-in-one printer and... hey! It's been de-suckified!

The thing is well designed, has good drivers, built-in networking, even scans and faxes over the network -- pushing or pulling to multiple "associated" Macs. It's not perfect but what the hell? It's like someone is writing these drivers who actually uses a Mac!

When did that happen? Doesn't HP know they're supposed to have crappy Mac products?

And after that good experience, and reading a number of great reviews, I grabbed an HP B9180 Photosmart Pro Printer, too. Again, a great printer, with good drivers, built-in networking, relatively frugal with inks, good paper handling: and it generates great prints.

This is HP -- "we generate huge dots with expensive ink and our photos look like crap" HP. And -- not.

Wow. I don't know what's going on at HP, but they should definitely keep it up.

A quick follow-up to my review of the Roomba and US Trilobite.

As I mentioned in the review, Europe has a newer version of the Trilobite—v2.0. The description of the 2.0 version from Electrolux indicated 200 changes from v1.0 (which was Europe-only as well), but despite communications with a number of Electrolux representatives, I wasn’t able to get a list of the differences between the US EL520 model and v2.0.

Based on two particular items—scheduling and smarter navigation—and after ensuring the v2.0 model was compatible with the US chargers and accessories—I sourced one from the UK. (Interestingly, the list price of the Trilobite in Europe is much less than in the US.)

The 2.0 Trilobite’s software is clearly a later revision, and has a number of behavioral differences, as well as scheduling and a graphical “time to charge” indicator. Although advertised as adjusting its cleaning time based on obstacles found in the room, it does not seem to act any differently (in this area) than the EL520. Most of the mechanical design seems to be identical to the EL520: I believe that the vast majority of the 200 improvements are already in the US version.

After using it for a while, I can say the scheduling capability is well done and nicely thought out. It covers the options you want, is easy to disable, and behaves as expected.

Overall, a minor-but-nice improvement over the EL520. If you need scheduling, I suggest sourcing a US charger on eBay (well under $100, if you can find one, as opposed to the ridiculous list price of $300) and importing… who knows when—or if—Electrolux will bring these improvements to the US.

Users often ask me for drive recommendations, and while I provide general suggestions for FireWire drives in the SuperDuper! User’s Guide, I haven’t suggested any Network Accessible Storage (NAS) devices, mostly because I haven’t been entirely happy with the ones I’ve tested.

In general, most NAS units are Linux-based, with a drive that’s formated as ext3, which allow a large sparse image to be stored on the drive. This works well with SuperDuper!, and lets us properly preserve permissions and metadata with full fidelity. Some, like the LaCie “mini” Ethernet drive, are shipped as FAT32, and need to be reformatted as ext3 (or HFS+, or NTFS) before they can be used.

I’ve tested the Buffalo Linkstation and Gigastation, the LaCie mini ethernet drive, the Linksys NLUS2, and a number of others, and while they all work reasonably well when configured properly, none have been recommendation-worthy.

The units I’ve tried in the past have all had very old AFP (Apple’s network protocol) support, old enough to not support files larger then 2GB or so (even though their file system could handle larger), mostly because they’re all based on an old version of Netatalk. SMB can be used instead, and that does work, but you have to know to do it… and most users don’t. This means their backups would fail in various weird ways.

On top of that, these NAS units are pretty insanely slow. Even the Gigastation, using Gigabit Ethernet, did an initial backup running at less than 1MB/s. This improved once the first copy was done, but it’s painful the first time through.

So… nothing to recommend.

Until now.

Over the last week or so, I’ve been doing extensive testing with the Terabyte version of Infrant’s ReadyNAS NV, and I’m very impressed: impressed enough to give it a big thumbs up.

The ReadyNAS linked above is a 4-drive X-RAID unit (which has four 250GB drives set up for fault tolerance and speed, using Seagate’s Nearline SATA drives which—like Maxtor’s MaxLine III drives—are designed to have a longer life and more heat tolerance than regular drives) in an attractive case, with GigE capability. Like its competitors, the ReadyNAS runs Linux, but unlike the others they’re fanatical about keeping things up to date, and support the most recent Netatalk, which properly handles large files.

On top of that, they’ve spent a lot of time optimizing the unit, and it actually delivers very good performance—I got about 5MB/s on a full copy-- far better than the others, even over AFP. (More AFP-specific optimizations are promised for the future, too.)

But the goodness doesn’t stop there. Infrant knows that their OS can do more than just serve up shared storage, and they’ve gone ahead and created a nice port of Slim Devices‘ SlimServer, which runs on the ReadyNAS and can serve music around the house, through real Squeezeboxen or the Softsqueeze player. (In fact, Slim Devices is offering a bundle of a terabyte ReadyNAS NV and two wireless Squeezeboxen for $1499.) Infrant also supports UPnP streaming, etc, so it’s likely to work with the solution you already have.

And since they have good AFP support, you can point iTunes to its media share, and rip directly to it. Nice!

The ReadyNAS is not inexpensive (although the 250GB, easily expanded one isn’t too bad), and you might wonder whether you should just get a Mac mini with a FireWire drive instead. While you certainly could do that, the RAID capabilities built into the ReadyNAS are invaluable when you’re dealing with critical data. Infrant has clearly designed their unit to be rugged and reliable, and that’s obviously important. A failing/failed drive can be hot swapped for a new one, so your data remains safe even in the event of that inevitability.

The only real downside of the Infrant—other than the expense—is that it’s got a fan. Heat is the enemy of hard disks, so it’s important for the fan to be there, and they’ve made it temperature sensitive so it only runs as fast as it needs to. But, it’s not silent (although it’s not that bad), so if that’s an issue, this isn’t the unit for you.

Otherwise, a very enthusiastic recommendation: Infrant has done some really great work here.

I’ve written before about my Sony VGX-XL1 Media Center PC. One of its big advantages (other than near silence) is its 200-disc DVD changer, and you can chain up to five of them to host 1000 movies.

Well, Sony recently came out with a standalone version of the changer that works with any firewire capable Windows Media Center PC (including the XL1 and XL2), and Amazon now has the Sony VGP-XL1B2 Media Changer for $399, after a $100 (online submission) rebate. And shipping is free.

It’s a great price, a great device—and it’s currently selling amazingly well, at the #22 spot in Computers and Electronics.

I’m definitely ordering one!

When I was a kid, I used a bunch of string, clothespins and pulleys to rig up a gizmo that was supposed to automatically make my bed for me. The idea—which I think I got out of a book (Thanks, Jake!)—was to attach the string to the top of the sheet and blanket, then use pulleys to run it to the edge of the headboard. You then route the string to the bottom of the bed, et voilá: pull the strings in the morning, and your bed’s made!

Except it didn’t really work out that way. Not only did I get tied up in the strings (quite lucky I didn’t strangle myself), but honking the strings didn’t really make my bed. It just sort of pulled the sheet up. Definitely not the hardest part of a properly made bed.

It was an interesting try, though, and a learning experience: automation isn’t easy. It’s relatively easy to get some crude part of the activity done, but the devil’s in the details.

I think a lot of my interest in this stuff was sparked by William Pene du Bois’ book The Twenty-One Balloons (or Roald Dahl’s Charlie and the Chocolate Factory/Charlie and the Great Glass Elevator—or maybe even that great story There Will Come Soft Rains by Ray Bradbury), but whatever it was I’m fascinated by the concept of “automatic houses”, and always wondered if I’d live to see the day when household chores would be done with the push of a button, a glass of scotch, and a comfy chair.

I was pretty excited when Roomba came out a few years ago: they were clearly onto something, were paying attention to price points, and had extensive experience making more expensive robots for commercial and military use. Many improvements were made to their later generations, too, and they’ve now introduced a mop replacement, Scooba.

In parallel—or even before—Sweden’s Electrolux was working on their own robotic vacuum, which they presented to the world back in 1997. They released their first version—the Trilobite—in 2002 or so, followed by a significantly updated US version (also the Trilobite) in 2004, and Trilobite 2.0 in Europe at around the same time. Unlike iRobot, Electrolux wasn’t trying to hit a low price point; for them, the Trilobite is a technology showcase—and an example at what can be done with a mass-produced consumer product at the high end. (Dyson was working on something similar called the DC06, but abandoned the product, at least publicly, for performance reasons; other models, such as the Karcher are out as well, but I have no direct experience with them.)

It’s important to note that none of the robotic vacuums are going to Rosie-up your house. You will still have to use a regular vacuum every so often to do a deeper cleaning; if you dump a box of Quisp on the floor, they’re not going to dash out of their hole, clean it up, and run back. Instead, they’re intended to be used on a regular basis, doing general cleaning in between the times when you use a larger vacuum.

With those expectations in mind, here’s a comparison of the two. (I think this one of the longest posts I’ve written for this blog: sorry if it’s kinda boring, but I’m interested in this stuff.)

Roomba Scheduler - General Description
The Roomba Scheduler is iRobot’s current top-of-the-line model, with a street price of about $300 new. It’s quite similar to their “Discovery” model (priced $50 less), but—as the name implies—it can be scheduled to run automatically as desired.

Both the Scheduler and Discovery come with a docking station that charges the unit, and both will return to the charger at the end of their cleaning cycle.

It’s probably inaccurate to call the iRobot models “vacuums”. While they do have a small vacuum motor in them, their cleaning process is clearly patterned on a “floor and carpet sweeper” such as the Hoky or—given the spinning edge bush—the Leifheit Rotaro S. (There’s a thin, rotating “edge brush” at the front right that sweeps edge dirt toward the main brushes, much like the Leifheit.)

The Scheduler comes with an easily replaced NiMH battery pack, charger, two “virtual walls”, and various spares.

Overall, you can definitely tell Roomba units have been extensively cost reduced. The plastics, rubber, buttons etc are of reasonable but definitely not “high” quality. In the time I’ve had a Roomba, I’ve had to replace it twice due to failure. One failure was within three days of receipt, the other within a few months. Clearly, Roombas are not built to last, but they do come with a one year warranty. It takes a few weeks to get a replacement robot, should you need one. And, if you use a Roomba, you’ll probably need one.

Electrolux Trilobite (US Version - EL520A) - General Description
The US Trilobite EL520A is the only Trilobite available in this country, and streets as low as $1300. It cannot be scheduled automatically, but once turned on, it calculates the size of a room, and varies its cleaning time depending on what it finds.

Like the Roomba Scheduler, the Trilobite comes with a docking station that is placed along a wall, and the vacuum will return to the charger as needed. Unlike the Roomba, if the Trilobite runs out of juice in the middle of a cleaning cycle it will return to the charger and resume cleaning once full.

As you’d expect from Electrolux, the Trilobite has a real, rather strong (90W) vacuum, and relies on that—along with a beater bar with rubberized fins—for its cleaning.

The Trilobite comes with two internal NiMH battery packs (it switches between them automatically during operation), spare filters, and magnetic strips that can be used to prevent the robot from crossing room boundaries.

As mentioned above, Electrolux has released a new Trilobite in Europe—Trilobite 2.0 [ZA2]. The US model seems to have many, but not all, of the changes incorporated in 2.0—it’s more like Trilobite 1.8. Most notably, it has the redesigned fan, improved sensors, beater bar and the like. However, it lacks automatic scheduling and does not adjust its cleaning time based on the number of obstacles it encounters during the cleaning process. There may be other significant differences as well - there are reportedly over 200 changes from 1.0 to 2.0. I’ve tried to get more information from Electrolux without much success.

The Electrolux unit itself is beautifully manufactured. The plastics are of high quality, the industrial design—which resembles a horseshoe crab crossed with a trilobite—is witty and elegant. I’ve experienced no failures with my unit so far.

Roomba Scheduler - Operation
The Scheduler’s UI simple and easy to use: a power button and three operation mode buttons. The modes are:

• Spot - Spot cleaning moves around in a rough circle, and is designed to clean a dirt spot quickly
• Clean - Clean spends about an hour traversing the room, then returns to the dock
• Max - Max cleaning works like clean, but runs until the battery runs out

Any errors are communicated with flashing lights and “beep codes” that indicate the problem area. The unit also communicates effectively with “happy”, “sad” and “what have I gotten myself into” sounds that are witty and helpful.

Roomba primarily uses a front “bump” sensor to detect obstacles. On its right side, it has an infrared sensor that detects walls, and under the bump sensor’s lip it has a series of infrared sensors that detect stairs and other drops. Two wide, nubby, independently powered wheels with black rubber covers move the Discovery from place to place. A small vacuum is integrated into the rear dustbin

The Roomba seems to have a few basic behaviors: wall following, crossing the room diagonally, spiraling and various obstacle avoidance maneuvers. The robot usually starts with a spiral. When it encounters an obstacle (with its bump or stair sensors), it either “bounces” off diagonally, tries to go “around” it (if a chair leg or the like), or tracks it (a wall or corner).

In Clean and Max modes, the Roomba’s “dirt detector” notices when there’s over a certain amount of particulate matter passing some built-in sensors. When this occurs, the vacuum spends extra time circling that area.

These behaviors are mixed randomly. Due to the random element and careful basic behavior choices, most surfaces are covered during the cleaning period.

When it comes time to dock, the Roomba doesn’t seem to actively “seek” its dock. Instead, it continues its regular behavior until it intersects the IR beam emanating from the dock. When it finds that signal, it follows it until it reaches the charging base.

Electrolux Trilobite - Operation
The Trilobite has a small, graphical LCD screen that displays its UI. It also has four buttons: Power, Stop, a navigation button and a “Yes” button. It has three main cleaning modes:

• Normal - Normal mode measures the room size and calculates the amount of time necessary to clean it
• Quick - Quick skips the measurement phase and moves directly into a fixed-time cleaning mode
• Spot - Spot cleans a 10x10 area centered around the initial location

Other menu entries allow the fixed cleaning time and display language to be set. Any errors are displayed in the selected language on the LCD. Overall status is also communicated with various tunes much like the Roomba.

A large dustbin with a substantial filter is easily accessed under the top cover, which is released by a button at the rear of the unit. There’s a bump sensor at the front, but the Trilobite primarily uses its eight ultrasonic sensors, four pointing at about a 45 degree angle up, and four pointing out, to sense its environment. There are three additional infrared sensors on the bottom bumper, and additional sensors under its front lip. Two independently powered, narrow but large diameter wheels with clear urethane covers move it from place to place.

Like the Roomba, the Trilobite has a number of basic behaviors it combines during the cleaning process. In normal mode, it first uses a counter-clockwise wall-following to determine the size of the room. Once it re-encounters its dock, it moves into a cleaning mode.

In cleaning mode, the Trilobite makes diagonal runs, avoiding obstacles and changing speed and behavior depending on what it detects in the room. For example, if it encounters something it considers to be living (like a dog), it quickly “leaps back” to avoid it. If it approaches a “hard” object, it slows as it approaches, stops a fraction of an inch from its surface, and goes around. Steps are detected and avoided as expected.

Interestingly, the upward-facing ultrasonic sensors are used to detect when the Trilobite is under an object, like a bed. The sensors detect the boundaries of the object, and the vacuum uses that to ensure sufficient time is spent cleaning under it.

As with the Roomba, the Trilobite doesn’t really know where it has and hasn’t been, and it relies on a certain amount of randomness and time to ensure it’s covered the surface to be cleaned.

Docking behavior uses the wall-following technique, and moves in a counter-clockwise direction around the room until it encounters the dock. If the battery is depleted during a cleaning cycle, the Trilobite will locate its dock, charge, undock and complete the cycle.

Cleaning and clean-up
Overall, the Roomba and Trilobite do a pretty similar job cleaning a room. Neither “deep cleans” like a powerful vacuum with a beater bar (although the Trilobite gives it a try), but both manage to tidy things up nicely, rarely leaving a “missed” area.

Edging Performance
The Roomba definitely does a better job cleaning edges than the Trilobite. Part of this is due to the Roomba’s “edge brush”, which sweeps fluff and the like into the main brush’s path. But it’s also due to the fact that the Roomba bashes into edges, and doesn’t attempt to avoid contact with them. Although this does allow it to get closer to the wall, it has its downsides: my Roomba’s bumper is often smudged with paint it’s scraped off a baseboard or wall bottom, and this tendency isn’t helped by the sharp mold line on the bumper that’s right at the primary contact point. Should a wall be followed on the Roomba’s left, rather than its right (where the IR sensor is), near constant contact is made along the entire length of the wall.

The Trilobite does a reasonable job with edges (it makes a full, “edging” pass of the entire room during the measurement phase), but does not get as close—there’s probably 1/2” at the very edge that’s not directly cleaned.

Room Preparation
With the Roomba, it’s absolutely critical that all cords and delicate objects be moved before the cleaning takes place. All Roomba units are hungry for string, electrical cords, speaker wire and carpet fringe. Unfortunately, these items just don’t agree with its sensitive digestion and quickly get sucked in and tangled around the edge brush, main brush or rubber roller. When this happens, it plays a sad, sad song to apologize for the appliance it pulled onto the floor. It didn’t mean to be bad—it was just made that way!

The Trilobite, on the other hand, deals with most items—cords, fringe, even small objects—with aplomb. You wouldn’t want to leave a pile of papers or a magazine on the ground—both units will “read” them into bits—but a generally tidy room is easily handled by the Trilobite without any special care.

Both units have a way of preventing the robot from leaving a given area. The Roomba comes with two “virtual walls” that broadcast an infrared beam that the device detects and won’t cross. The Trilobite comes with a magnetic strip that can be temporarily or permanently installed that accomplishes the same thing.

I’ve found it’s far more important to “block” the Roomba into a space than it is to do so with the Trilobite. If the Roomba leaves a single room area, it’s unlikely to make it back to its dock, and will not clean the space effectively. Not so with the Trilobite: in our open plan house, the Trilobite can be switched on and will clean our lower level in one go, including entering the kitchen area, living space, reading area and the like. It needs to charge at the midpoint or so, but it does accomplish the task.

After Cleaning - Robot Needs Help!
In an ideal world, a robot vacuum wouldn’t just automatically top up its power tank—it’d empty its dust bin and take out the trash. Alas, this task is left to you, and there’s a pretty significant difference between the two units, especially if you have a pet with long hair (example: Ketzl, our Bernese Mountain Dog).

Dust Bins
The “dust bins” of both units are easy to remove. Roomba’s rear-mounted bin is designed in a “floor sweeper” kind of way, and it’s hard to avoid dumping fine dust and dirt on the floor when removing it. Once done, it’s easy to shake out particulate matter: you then disassemble part of the lower area where lint gathers by the vacuum filter. The Roomba’s bin isn’t very large, and should be emptied on a regular basis—if you’ve scheduled it to vacuum daily, I’d suggest checking it every few days, depending on the environment.

Trilobite has a large (1.2 Qt) sealed, plastic bin. Dust does not escape from it when it’s disconnected from the main unit: a flap closes over the intake, and the other end is covered by a microfiber filter that’s held closed by a magnetic cover: once open, dirt, fluff, etc is easily shaken into the trash. The 1/2” thick filter traps fine dust and should be replaced when necessary (as with most normal vacuums). The Trilobite automatically signals when the bin is full.

Brushes
Roomba’s brush mechanism must be disassembled and cleaned on a regular basis, and—in the “dog” case—gets seriously bound up with hair. The hair wraps itself around the brush, bearings and rubber bar, and requires a significant amount of time to cut, pull and remove.

Although newer models are easily disassembled (early Roombas required a screwdriver), hair can—and does—tie itself around the bushing on one side of the brush and bar, and—when present in sufficient quantity it’ll literally cause the plastic bearing cover to melt, deform and destroy itself. No doubt this is a known problem: a spare brush is supplied with the unit, as is a Roomba “cleaning tool” that has a razor blade and probe that makes the cleaning process easier. Even with that, it can take 20 minutes to clean the Roomba after it’s spent an hour vacuuming a room.

The Trilobite—since it relies primarily on its vacuum, rather than a brush—doesn’t have the same hair problem. Its bar occasionally gets a small amount of hair around it, but it’s made of aluminum (with urethane-looking fins) and doesn’t self-destruct. It’s easily cleaned when it needs to be, which isn’t very often.

Summary
The Roomba and Trilobite achieve their design goals in a broad sense: they automatically vacuum a room, and do a pretty good job of it. But a closer look reveals design differences and compromises that seriously impact the long term “live-with-it” factor that one must deal with after the initial “cool!” factor wears off.

Both are fascinating to watch do their thing, the Trilobite more so due to the intelligent behaviors it exhibits and the mechanical grace it shows in its movements (watching it carefully pick its way out of a jam, climb up onto a rug, pay special attention to under a bed, dock or follow a complex perimiter really shows what a good job Electrolux’s programmers did). The Roomba feels far more brute force as it bashes its way around the room at full speed (despite the fact that both devices rely on random-walk base behavior), but does an good job despite its lack of finesse.

It’s hard to emphasize this kind of thing enough, though. The more elegant approach of the Trilobite is a big advantage i. With the Roomba, as you watch it, you’re amazed it managed to do what it does at all. With the Trilobite, you’re surprised how well, cleverly, and carefully it performs its task. (This has its downside, too—expectations are very high given the overall “quality” impression and high price: when the Trilobite screws up, it’s harder to understand/forgive its failing. Maybe it needs to play a sadder song.)

At $300 for the top of the line model, Roomba is much, much more affordable, and its scheduling capability is handy (though not as handy as it could be with a larger, less messy bin). In a small, easily-blocked off, cord-free room without fringed rugs or hair, and rugged surroundings that don’t mind extensive “bump” contact, it does a good job. If you stay on top of its maintenance challenges—a significant timesink if you have a long-haired pet—it’ll serve its purpose admirably, although I have serious concerns about its longer term durability.

For me, though, the Trilobite is the clear winner. Its “no contact” approach works much better in most areas in my house, and its general charging and cleaning behaviors are better suited to an open plan space. It’s “vacuum-based” operation requires far less setup and maintenance with a pet in residence, and in that—and its overall elegance—it proves to be something that can be “lived with”, long term, with minimal compromise.