speculative question about optics

Guest
List,

I know this is a very speculative question but my googling skills have
failed me this time.
I'm looking for a method and/or component to optically calculate
distance between an optical sensor and object.
The object is likely to be thin and of tungsten.

Grateful for any advice.

mgb
 
On Sat, 15 Dec 2007 14:24:30 -0800 (PST), lusermgb@googlemail.com
wrote:

List,

I know this is a very speculative question but my googling skills have
failed me this time.
I'm looking for a method and/or component to optically calculate
distance between an optical sensor and object.
The object is likely to be thin and of tungsten.

Grateful for any advice.

mgb
You are going to need more data.
Likely distances involved?.
Accuracy required?.
Is the object illuminated, or radiating?.
What is the background?.
Why optical?. - likely to be the hardest, and most expensive
solution...
Automatic, or manual?.

Simplest for manual, the simple optical rangefinder system (adjust the
angle of two telescopes, till the images align). For automatic, 'low
accuracy' systems, could be done based on camera autofocussing systems
(though the cheaper ones use ultrasonics, or infra-red reflection,
rather than optical alignment). For higher accuracy, much easier if
the object can be connected to an RF source for example.

Best Wishes
 
On Dec 16, 10:39 am, Roger Hamlett
<rogerspamigno...@ttelmah.demon.co.uk> wrote:
On Sat, 15 Dec 2007 14:24:30 -0800 (PST), luser...@googlemail.com
wrote:

List,

I know this is a very speculative question but my googling skills have
failed me this time.
I'm looking for a method and/or component to optically calculate
distance between an optical sensor and object.
The object is likely to be thin and of tungsten.

Grateful for any advice.

mgb

You are going to need more data.
Likely distances involved?.
Accuracy required?.
Is the object illuminated, or radiating?.
What is the background?.
Why optical?. - likely to be the hardest, and most expensive
solution...
Automatic, or manual?.

Simplest for manual, the simple optical rangefinder system (adjust the
angle of two telescopes, till the images align). For automatic, 'low
accuracy' systems, could be done based on camera autofocussing systems
(though the cheaper ones use ultrasonics, or infra-red reflection,
rather than optical alignment). For higher accuracy, much easier if
the object can be connected to an RF source for example.

Best Wishes
Thanks very much for the reply. I hope this information might help...
The maximum distance from sensor to object would be approximately 45
centimetres, the minimum distance would be approximately 6
centimetres.
The accuracy must be to the nearest millimetre ideally, however in
most scenarios to the nearest half centimetre is probably good enough.
The object is not illuminated or radiating.
To correct myself in the first post, the object is likely to be made
of either brass, nickel or tungsten, with varying degrees of
reflectivity.
Would dipping the object in any kind of liquid make it more easily
detectable?
A light source is always placed above the object, however the far
background (approximately 190 centimetres away) is likely to be dark.
The choice of optical was arbitrary, if ultrasonic or infra-red
methods are possible then that's great. However I'd ideally want just
one sensor, I'm concerned that ultrasonic methods would require
multiple sensors for triangulation, which would make this rather
unwieldy.
The process of detection must be automatic.

An RF source would have to be very small, as the object is
approximately 1 inch long and roughly 1-2 millimetres across.
I've thought about RFID chips however I'm unsure about how effective
they are to 'give up' their location, and also they appear to be hard
to source and possibly very expensive.
I'd be grateful to hear any other ideas associated with RF though.

Many thanks
 

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