Recently, surveying large areas in an automatic way, for early detection of both harmful chemical agents and forest fires, has become a strategic objective of defence and public health organisations. The Lidar and Dial techniques are widely recognized as a cost-effective alternative to monitor large portions of the atmosphere. To maximize the effectiveness of the measurements and to guarantee reliable monitoring of large areas, new data analysis techniques are required. In this paper, an original tool, the Universal Multi Event Locator, is applied to the problem of automatically identifying the time location of peaks in Lidar and Dial measurements for environmental physics applications. This analysis technique improves various aspects of the measurements, ranging from the resilience to drift in the laser sources to the increase of the system sensitivity. The method is also fully general, purely software, and can therefore be applied to a large variety of problems without any additional cost. The potential of the proposed technique is exemplified with the help of data of various instruments acquired during several experimental campaigns in the field.

1.
G.
Fiocco
and
L. D.
Smullin
,
Nature (London)
199
,
1275
(
1963
).
2.
R. M.
Schotland
, “
Errors in the lidar measurements of atmospheric gases by differential absorption
,”
J. Appl. Meteor.
13
,
71
77
(
1974
).
3.
F.
Andreucci
and
M.
Arbolino
, “
A study on forest fire automatic detection system, 2 – Smoke plume detection performance
,”
Il Nuovo Cimento
16
(
1
),
51
(
1993
).
4.
C.
Bellecci
,
M.
Francucci
,
P.
Gaudio
,
M.
Gelfusa
,
S.
Martellucci
, and
M.
Richetta
,
Proc. SPIE.
5976
(
2005
).
5.
A.
Lavrov
and
R.
Vilar
, “
Application of lidar at 1.54 μm for forest fire detection
,”
Remote Sensing for Earth Science, Ocean and Sea Ice Applications
(
SPIE
,
Bellingham
,
1999
), Vol.
3868
, pp.
473
477
.
6.
R.
Vilar
and
A.
Lavrov
, “
Estimation of required parameters for detection of small smoke plumes by lidar at 1.54 μm
,”
Appl. Phys. B
71
(
8
),
225
229
(
2000
).
7.
S.
Pershin
,
W. M.
Hao
,
R. A.
Susott
,
R. E.
Babbitt
, and
A.
Riebau
, “
Estimation of emission from Idaho biomass fire using compact eye-safe diode lidar
,”
Application of Lidar to Current Atmospheric Topics III
(
SPIE
,
Bellingham
,
1999
), Vol.
3757
, pp.
60
66
.
8.
A.
Utkin
,
A.
Fernandes
,
L.
Costa
,
R.
Vilar
, and
F.
Simoes
, “
Detection of small forest fire by lidar
,”
Appl. Phys B
74
(
1
),
77
83
(
2002
).
9.
A.
Utkin
,
A.
Fernandes
,
R.
Vilar
, and
A.
Lavrov
, “
Forest fire detection by means of lidar: Forest fire research and wildland safety
,” in
Proceedings of the IV International Conference on Forest Fire Research
(
Millpress
,
Rotterdam
,
2002
), p.
58
.
10.
C.
Bellecci
,
P.
Gaudio
,
M.
Gelfusa
,
T.
Lo Feudo
,
A.
Malizia
,
M.
Richetta
, and
P.
Ventura
, “
Raman water vapour concentration measurements for reduction of false alarms in forest fire detection
,”
Proc. SPIE
7479
,
74790H
(
2009
).
11.
C.
Bellecci
,
L.
De Leo
,
P.
Gaudio
,
M.
Gelfusa
,
S.
Martellucci
,
T.
Lo Feudo
, and
M.
Richetta
, “
Evolution study of smoke backscattering coefficients in a cell by means of a compact mobile Nd:Yag lidar system
,”
Proc. SPIE
6745
,
67451S
(
2007
).
12.
C.
Bellecci
,
L.
De Leo
,
P.
Gaudio
,
M.
Gelfusa
,
T.
Lo Feudo
,
S.
Martellucci
, and
M.
Richetta
, “
Reduction of false alarms in forest fire surveillance using water vapour concentration measurements
,”
Opt. Laser Technol.
41
,
374
379
(
2009
).
13.
S.
González
,
J.
Vega
,
A.
Murari
,
A.
Pereira
,
J. M.
Ramírez
,
S.
Dormido-Canto
, and
JET-EFDA contributors
, “
Support vector machine-based feature extractor for L/H transitions in JET
,”
Review of Scientific Instruments, Proceedings of the 18th Topical Conference on High Temperature Plasma Diagnostics (HTPD 2010)
(
Wildwood, New Jersey
,
2010
), Vol.
81
.
14.
J.
Vega
,
A.
Murari
, and
S.
González
, “
A universal support vector machines based method for automatic event location in waveforms and video-movies: Applications to massive nuclear fusion databases
,”
Rev. Sci. Instrum.
81
(
2
),
023505
(
2010
).
15.
C.
Bellecci
,
M.
Francucci
,
P.
Gaudio
,
M.
Gelfusa
,
S.
Martellucci
,,
T.
Lo Feudo
, and
M.
Richetta
, “
Application of a CO2 Dial system for infrared detection of forest fire and reduction of false alarm
,”
Appl. Phys. B
87
,
373
378
(
2007
).
16.
C.
Bellecci
,
L.
Casella
,
S.
Federico
,
P.
Gaudio
,
T.
Lo Feudo
,
S.
Martellucci
, and
M.
Richetta
, “
Evolution study of a water vapor plume using a mobile CO2 DIAL system
,”
SPIE Proc.
3865
,
108
118
(
1999
).
17.
C.
Bellecci
,
P.
Gaudio
,
M.
Gelfusa
,
T.
Lo Feudo
,
A.
Murari
,
M.
Richetta
, and
L.
De Leo
, “
In-cell measurements of smoke backscattering coefficients using a CO2 laser system for application to lidar-dial forest fire detection
,”
Opt. Eng.
49
(
12
),
124302
(
2010
).
18.
C.
Bellecci
,
I.
Bellucci
,
P.
Gaudio
,
S.
Martellucci
,
G.
Petrocelli
, and
M.
Richetta
, “
Clipping the tail of a TE-CO2 laser pulse using a gas breakdown technique for high resolution chemical plume detection
,”
Rev. Sci. Instrum.
74
,
1064
1069
(
2003
)
19.
P.
Gaudio
,
M.
Gelfusa
, and
M.
Richetta
, “
Preliminary results of a lidar-dial integrated system for the automatic detection of atmospheric pollutants
,”
Proc. SPIE
8534
,
853404
(
2012
).
20.
S.
González
,
J.
Vega
,
A.
Murari
,
A.
Pereira
,
M.
Beurskens
, and
JET-EFDA contributors
, “
Automatic ELM location in JET using a Universal Multi-Event Locator
,”
Fusion Sci. Technol.
58
(
3
),
755
762
(
2010
).
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