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Project:LHS Graphs and Visualizations: Difference between revisions

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==In progress==
==In progress==
 
See project: [[Project:Spacensus|spacensus]]
====Space occupancy====
I have located two Laser Diode Retroreflective Sensors in our stores which I intend to use to monitor space occupancy by having the beams cross the main doorway. The beams will be staggered so that direction (arriving, leaving) can be determined by the order in which the beams are broken. I was thinking of mounting them at waist height.
 
* This will probably get caught out by clusters of people: --[[81.105.17.61]]
** We only need an approximate count
** The doorway is narrow so it's unlikely that the steps of more than one individual will overlap.
** Most of the time people won't arrive in clusters
* Can we detect some other event such as the door opening after a prolonged lights-out period to force the count to zero? --[[81.105.17.61]]
** Yes, using the door/lights data for reset would be good if  we get large amounts of drift - but I don't plan to just yet
** This might fail if people spend the night there.  AIUI this happens rarely enough that we may not care about the inaccuracy.
** We could also use some kind of probabilistic model with the 'door-open' and 'bell' data
 
=====Location=====
The [http://www.flickr.com/photos/travelbot/5421523049/ current mounting location] has the lasers In close proximity in the middle of the entrance way. To avoid issues with occlusion of beams by coats etc, the coat hooks have been moved to the next wall along, with the lab coats. This arrangement greatly simplifies the detection of the true direction of someone entering/leaving the space.
 
Detection works reasonably well but there is currently a reset delay of 1 second meaning that a person following another at an interval at less than one second will not be detected. It turns out that this is quite common and leads to 'under-counting'.
 
The occupancy level is currently [http://hack.rs/cacti/graph.php?action=view&local_graph_id=35&rra_id=all charted on cacti]. The [https://github.com/londonhackspace/spacensus python script] that provides the data to cacti implements only the 'pool for status' command, but will later allow more control and configuration of the counting sensors.
 
=====Hardware=====
These sensors appear to be in working order. They'd should be safe to use below child-head height. They were manufactured in 1996 and use a [http://en.wikipedia.org/wiki/Laser_safety#Class_II Class II] laser rated at 3mW with a wavelength of 655-670nm ([[Media:Banner-q45bb6ll.pdf|datasheet]]). The model number is: Q45BB6LL
 
A good signal can be obtained at 1.5m by using a reflector made of aluminium tape.
 
* [http://www.flickr.com/photos/travelbot/5411266701 spacensus v0.1 board]


==Desired==
==Desired==
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