On some of our machinery, exporting the process file from the machine to an SD card will automaticly safe the process file to an sfxxx file while on the machie process, the file has a part number and a descriptive note. You can only save one process on one card to avoid cross naming it when you transfer it to a PC.
All of the bad designs and lack of adequate thought put into a product. Well, bad designs are bad designs...still probably caused by people being asked to cut costs. I don't blame the engineers or the programmers. I know we always want the best. Problem is, the best isn't cheap enough. That's the problem. Money money money...no worries about it failing in a month. We saved a penny on every unit! Even though that penny would have made it last 5 years longer.
That's the thing though. Why go so far as to make a "high quality" product and drop the ball on the software end. Just cause it looks cool and has lots of features...if the interface sucks and it doesn't function in a good way...you still failed.
I disagree. I am schooling to be a programmer and I would never let that fly. That isn't the programmers fault...and if it is...they have the wrong programmers. Programmers..I tend to think....like to make cool stuff...usability is a main part of that. So to blame the programmers.....nah. it's saving money...just make it work...who cares about the end user anymore?!
That seems to be the norm anymore. Do as little as possible and let the end user figure it out. There used to be a day when people made a quality product and were proud to do it. Read some of the monkey stuff, people are fixing their own equipment because the company won't spend a few cents on a washer...just an example..what is a quality product anymore...high dollar? not always arg!
This is what happens when software is developed by programmers. That is probably the way that they organize their records at home, as well.One option might be to copy each file to a better name in another directory. Of course, that would take up lots of space, so an alternate mathod would be to save them by name on a backup disk.
I've seen the same problem on a few of the recorders, including the Zoom. It seems that you get plenty of features on the recorder, but the interface to the memory cards is a little primitive. Of course, if they added file naming you need to be able to type in the name, edit the name, check for illegal file names, check for duplicates. It would take a fair amount of code to add the feature.
Thanks for the comments - now I know why they do it as they do.
The "high-end" comment is definately subjective. As an amateur with a hobby budget I found the Tacam has everthing I needed for under $1K. I recorded a 20Hz to 20Kz sine thru a Zoom and the Tascam and found terrible distortion on playback from the Zoom, especially above 8KHz.
Once I've made my .wav files and transferred them to my PC, I use Wavepad by NCH Software for editing files - separating them into audio tracks, setting amplitude, Etc. Wavepad is free and it looks similar to Audacity. I used Audacity in the past but I thought I heard some type of distortion in the playback. I switched to Wavepad and the sound seems clean to me.
I agree, Cadman-LT. Since one of the accepted uses of the device is moving songs to and from a PC, the manufacurer should have been more prepared. Unfortunately, it's all too easy to release a product and let the customer deal with the problem after it's purchased.
I agree with naperlou. They could have done a much better job, well they could have at least done something! It doesn't seem like they even gave it a thought. I would be like you and have expected at least something....something better than that. Just the simple correct dating of the song would be enough...how hard could that possibly be!?
Are they robots or androids? We're not exactly sure. Each talking, gesturing Geminoid looks exactly like a real individual, starting with their creator, professor Hiroshi Ishiguro of Osaka University in Japan.
For industrial control applications, or even a simple assembly line, that machine can go almost 24/7 without a break. But what happens when the task is a little more complex? That’s where the “smart” machine would come in. The smart machine is one that has some simple (or complex in some cases) processing capability to be able to adapt to changing conditions. Such machines are suited for a host of applications, including automotive, aerospace, defense, medical, computers and electronics, telecommunications, consumer goods, and so on. This discussion will examine what’s possible with smart machines, and what tradeoffs need to be made to implement such a solution.