When I ordered my Android one a while back it took them forever to ship it and my charge hold disappeared, then they proceeded to charge the amount again, but it wasn't a double charge since the original charge never went through.
Look in your bank history statement to make sure you are not charged twice, but I did find it confusing they way they did the charges.
The app has been approved for some time now...
No revised software release for Android yet though. It will be interesting to see how well the iOS application works with the SEEK. Surely they have addressed the issues that have been highlighted here by now ?
Could this turn out like the Hantek offerings....nice hardware, pity about the software
Decent software is every bit as important as the clever hardware that provides the data.
Aurora
I've bought cheap 50mm and 100m ZnSe lens too but haven't played with it yet.
How did you mount it on the seek module and at what distance?
Meanwhile I've found probably the easiest way for making vertical & horizontal pano head.
I was looking at kossel/delta 3d printer...
I'll use this small steppers:
3 steppers will be instead of vertical bars of kossel and the platform for seek module will be where printer extruder is.
This way I'll be able to easily move seek vertically, horizontaly and in circular (axial precession) movement.
I still haven't gotten as good a banding reduction as miguelvp or frenky, but it does work, and in real time.
//tempFrame= calibration frame - image frame + 10000
//then:
int iPeak = 10230;//depends on the image, I don't have it hardcoded
int iRange = 570;// -||-
int minPix = iPeak - (iRange/2);
int imaxPix = iPeak + (iRange / 2);
int maxPix = imaxPix;
//put 207th colum into array:
for (int y = 0; y < 156; y++)
{
arrLinet[y] = tmpImgLine[206, y];
}
//get min & max values of the array:
minTune = arrLinet.Min();
maxTune = arrLinet.Max();
//range is:
range = maxTune - minTune;
//"floor" the array so the min is 0 and max = range
for (int y = 0; y < 156; y++)
{
arrLinet[y] = arrLinet[y] - minTune;
}
maxTune = maxTune - minTune;
//tune lines:
double tuningStrength=0.003;
for (int y = 0; y < 156; y++)
{
for (int x = 0; x < 208; x++)
{
pixVal = tmpImg[x, y];//current pixel
if (pixVal < minPix) pixVal = minPix;
if (pixVal > imaxPix) pixVal = imaxPix;
maxPix = imaxPix - minPix;
pixVal = pixVal - minPix;
pixPrescaler = 1;
pixPrescaler = ((double)pixVal / (double)maxPix);
linePrescaler = ((double)arrLinet[y] / (double)maxTune);
newVal = tmpImg[x, y] * linePrescaler * tuningStrength * pixPrescaler;//higher the value, less correction is applied
tmpVal = tmpImg[x, y] - Convert.ToInt32(newVal);
tmpImg[x, y] = tmpVal;
}
}
Seems like this thread has gone cold.
Nobody with any firmware decoding experience has stepped in, and the windows development has basically gone on hiatus.
Someone is selling a close-up lens for the SEEK camera on ebay.
Price isn't bad considering parts cost and the need for a 3D printed mount. I have no connection with the seller.
http://www.ebay.com/itm/NEW-SEEK-THERMAL-Macro-Lens-CAMERA-IMAGING-ANDROID-FLIR-LWIR-NIGHT-VISION-/201245366108?pt=US_Other_Cell_Phone_Accessories&hash=item2edb28975c
Correction: they are using sealed cell high density foam and not a 3D printed plastic holder. A clever idea as I have used such foam before and it is tough stuff and fitted to the task. Expensive to buy thick sheets of it though. No idea how they created the required profile for the lens and SEEK parts though. Looks a neat job.
Aurora