owlps-positioner.conf, fix mobiles.csv

v1.3.1/owlps-config/mobiles.csv

@@ -14,3 +14,23 @@
 # Fonera 2.0 (owlps-client-fon, TBF08)
 # Base MAC: 00:18:84:D0:2A:0C
 00:18:84:D0:2A:0D;1.8;18
+
+
+# Declaration of the listeners: this is needed to take into account the
+# autocalibration requests when positioning.accept-new-mobiles = false.
+
+# listener1 (TBF07) (0;0)
+# Base MAC: 00:18:84:D0:1C:BC
+00:18:84:D0:1C:BD;1.8;18.0
+
+# listener3 (TBF06) (0;Y)
+# Base MAC: 00:18:84:D0:0E:98
+00:18:84:D0:0E:99;1.8;18.0
+
+# owlps-slave1 (TBF04) (X;Y)
+# Base MAC: 00:18:84:D0:24:74
+00:18:84:D0:24:75;1.8;18.0
+
+# listener4 (TBF10 phidget) (X;0)
+# Base MAC: 00:18:84:D0:2A:E8
+00:18:84:D0:2A:E9;1.8;18.0

v1.3.1/owlps-config/owlps-positioner.conf

@@ -0,0 +1,233 @@
+# Sample configuration file for OwlPS Positioner
+
+# [Miscellaneous options]
+
+# This option controls whether or not the output text files are flushed
+# (written to the storage support) after each line.
+# The default is to flush.
+#flush-output-files = true
+
+# "Replay" mode. With this option enabled, the current time is the
+# emission timestamp of the most recent request; you will want to
+# enable this when reading inputs (requests) off-line to replay
+# scenarios, if time-related options are enabled (e.g.
+# positioning.calibration-requests-timeout).
+# To be useful, this option requires the listeners' clocks to be
+# synchronised. If it is not the case, you should leave it disabled.
+# The default is to run in "live mode", i.e. with this option disabled.
+#replay = off
+
+[data-input]
+# The options in this section are related to the data that are read
+# when the program starts.
+
+# Description of the machines running the listeners.
+ap-medium = CSV
+ap-csv-file = /home/mc/owlps-tests/v1.3.1/owlps-config/listeners-fonera.csv
+
+# Description of the clients
+mobile-medium = CSV
+mobile-csv-file = /home/mc/owlps-tests/v1.3.1/owlps-config/mobiles.csv
+
+# Description of deployment area topology.
+# You probably don't need a full description of the topology, see the
+# topology example file for details.
+# Uncomment the following line to activate the topology reading.
+topology-medium = CSV
+areas-csv-file = /home/mc/owlps-tests/v1.3.1/owlps-config/topology-teleoperateurs.csv
+waypoints-csv-file = /home/mc/owlps-tests/v1.3.1/owlps-config/waypoints-empty.csv
+
+#reference-points-medium = CSV
+#reference-points-csv-file = /usr/local/etc/owlps/reference_points.csv
+
+[input]
+# The following options are related to the input of the requests
+# (positioning requests and (auto-)calibration requests) from the
+# aggregator.
+
+medium = CSV
+#csv-file =
+
+#medium = UDP
+#udp-port = 9902
+
+[log]
+# The following options allow to log the requests received from the
+# aggregator.
+
+# Uncomment the following line to completely disable logging (has
+# precedence over the other logging options):
+#medium = none
+
+#medium = CSV
+#csv-file = /tmp/owlps-positioner.log
+
+[positioning]
+# The options in this section are related to the way the requests are
+# handled and the results are computed.
+
+# Uncomment lines to activate one or more algorithm.
+algorithm = Real
+#algorithm = InterlinkNetworks
+#algorithm = FBCM
+algorithm = NSS
+#algorithm = FRBHMBasic
+
+# This option allows to create a new mobile when a request is sent by
+# a mobile which is not currently in the mobiles' list (i.e. not
+# declared in the mobiles' configuration file). If unset, the requests
+# sent by unknown mobiles will be dropped.
+# It is unactivated by default, mainly to avoid interferent devices.
+#accept-new-mobiles = false
+
+# This option allows to create a new AP when a request is captured by an
+# AP which is not currently in the APs' list (i.e. not declared in the
+# APs' configuration file), or when a self-calibration request is sent
+# by an unknown AP.
+# It is unactivated by default for the sake of security.
+#accept-new-aps = false
+
+# When receiving a calibration or autocalibration request from an AP,
+# containing the transmiter's coordinates, memorise the new AP's
+# coordinates.
+# This is unactivated by default for the sake of security.
+#update-ap-coordinates-online = false
+
+# Coordinates of the deployment area.
+# This is used to delimit the area in which reference points are
+# generated (when generate-reference-points is activated), and also
+# by the MinMax trilateration method.
+# Since MinMax is currently the only trilateration method implemented
+# in OwlPS, you should define these parameters if you use any of the
+# trilateration-based algorithms (InterlinkNetworks, FBCM, FRBHM).
+# With the autocalibration, the Z coordinate is the floor number, not
+# a true coordinate in meters.
+# They are declared as strings (X;Y;Z). Do not quote!
+#area-start = -2;-2;0
+#area-stop = 20;30;6
+# Salle drone
+area-start = 1;1;1
+area-stop = 5;10;1
+
+# Algorithm to calculate the similarity, in the signal strength space,
+# of two measurements.
+# The following algorithms are implemented:
+#   - mean: The mean of all the packets in the measurement is
+#     computed, then the euclidean distance between the two means is
+#     used.
+#   - interval: The mean Im and the standard deviation Is of the
+#     packets in the measurement I are computed; the closest reference
+#     measurement R is the one with the highest number of packets in
+#     the interval [Im-Is, Im+Is].
+#   - interval2: Derived of the previous one, this algorithm
+#     computes the percent of packets in both the intervals
+#     [Im-0.674×Is, Im+0.674×Is] and [Im-Is, Im+Is].
+#     Assuming a normal distribution, we should find approximately
+#     50% of the packets in the first interval, and 68% in the second
+#     interval. The closest R is the one for which the percents of
+#     the two intervals are the closest to these theoretical scores.
+# The default is "mean".
+#ss-similarity = mean
+#ss-similarity = interval
+#ss-similarity = interval2
+
+# Smallest possible value for a received signal strength, in dBm. This
+# depends on the sensibility of the APs' Wi-Fi hardware. It is used to
+# compensate for APs that are not in coverage in a given measurement.
+# The default value is -99 dBm, which should be fine in most cases.
+#smallest-ss = -99
+
+# Generate reference points from the (auto)calibration requests
+# received.
+generate-reference-points = true
+
+# With this option disabled, each generated reference point contains
+# a single packet in a single calibration request, computed from the
+# mean of the real measurements.
+# If enabled, the generated reference points will contain a series of
+# packets, better matching the real requests; if no packet ID from the
+# real requests match, a single packet reference point is generated
+# instead. Default is enabled.
+#generate-multi-packet-reference-points = true
+
+# When the above option is activated, the reference points are generated
+# with the specified distance (in meters) between one another, in the X
+# and Y axis.
+generated-meshing-grain-x = 1
+generated-meshing-grain-y = 1
+# The Z option is currently a floor number instead of a vertical
+# coordinate in meters. You should leave it to 1, except if you are
+# deploying across non-contiguous floors, which is unlikely.
+#generated-meshing-grain-z = 1
+
+# This option allows the calibration requests sent during the
+# positioning phase to be added to the calibration request's list. They
+# are added to the calibration requests read by InputDataReader during
+# the start-up phase. If this option is not activated, the calibration
+# requests are handled as positioning requests.
+# This option must be activated for the self-calibration to work, but
+# it is not activated by default for security purposes.
+accept-new-calibration-requests = true
+
+# Maximum age of the calibration requests, in seconds. If greater than
+# zero, the calibration requests older than this timeout will be
+# deleted. See also the replay option.
+#calibration-requests-timeout = 0
+
+# With this option activated, the calibration requests associated with
+# an existing reference point are deleted when receiving a new
+# calibration request, before to associate the new request with the
+# reference point.
+# The default is true, as there is generally no point keeping old
+# calibration requests.
+#unique-calibration-requests = true
+
+# If you activate the above option and want the calibration requests
+# to be treated as positioning requests (in addition to the normal
+# treatment of calibration requests), activate this option.
+# The default is false: the first calibration requests' purpose is to
+# serve the positioning process, not to use it.
+#position-calibration-requests = false
+
+[positioning.nss]
+# This subsection contains the options related to the NSS (a.k.a. RADAR)
+# algorithm and derivated.
+
+# For a given positioning request, average all the calibration requests
+# associated with a reference point before to compute the SS similarity.
+# The default is false, i.e. the positioning request is compared
+# directly to each calibration request.
+#average-reference-points = false
+
+# Do not select reference points on which an AP is sit, as far as
+# possible (i.e. if there are reference points where no AP sits).
+# This is useful if you are using autocalibration and want to select
+# only the generated reference points.
+# The default is false.
+ignore-ap-reference-points = true
+
+[output]
+# The following options are related to the output of the results.
+
+# This is the default output if none is specified.
+medium = Terminal
+
+medium = CSV
+#csv-file = /tmp/owlps-positioner.out
+
+#medium = UDP
+# Currently, the host must be an IPv4 address (not a DNS name, nor an
+# IPv6).
+#udp-host =
+#udp-port = 9910
+
+# The TCPEvAAL output follows the specification of EvAAL 2011 to
+# communicate with the SocketAdapter program developped by the
+# organizers.
+# Note: you can use only one algorithm when using the TCPEvAAL output.
+#medium = TCPEvAAL
+# Currently, the host must be an IP address (not a DNS name).
+#tcpevaal-host = 127.0.0.1
+#tcpevaal-port = 4444
+
+# vim: syntax=cfg