Increasing Sophistication
Advancements in camera surveillance technology
- By Peter Ainsworth
- Apr 01, 2019
Video surveillance management is becoming increasingly
sophisticated in terms of operational
capabilities, including the type and scope of analytics
available. From retail to banking to transportation,
security managers are using surveillance to
catch criminals, analyze traffic flow, gather valuable marketing insights
and much more.
Historically, video data was stored on servers where much of the
video content was analyzed. Increasingly, companies are storing he
video data in the camera, or “on the edge,” and using the camera’s
own processing power to develop the analytic metadata. This has
several advantages as it removes the dependency on expensive additional
servers while improving analytic accuracy. Since the processing
is working on the “original/uncompressed” video data, bandwidth
usage on the network is reduced.
Moving to the Cloud
Storage of surveillance video is starting to migrate to the cloud. This
began in the residential market and is now becoming popular in the
commercial sector. Today cloud storage is ideal for smaller applications
such as retail stores or fast-food franchises where owners do
not want the upfront costs or ongoing maintenance of an on-premise
server. It also allows multi-site owners to review all their video, analytics
and/or dashboard data from one central location.
There are two distinct benefits to cloud connectivity. The first is
storage and second is the centralized management of video and data
dashboards. Cloud surveillance offers multiple subscription service
opportunities, including selectable recording durations/frame rates
and resolution (by camera) as well as health dashboards and video
analytics applications paid on a monthly basis. There are also hybrid
options that use a migration path for customers that offer the benefit
of both local and cloud storage.
Improvements in Resolution
As the industry has matured along the internet protocol (IP) path,
the resolution of cameras has improved as well. Cameras that are to
three megapixels (MP) are considered standard resolution. Higher
resolution cameras that range from five MP to 20 MP deliver many
benefits including greater clarity and higher image quality. These
advancements can be used with live images, where one high-resolution
camera can cover the same visual area of two or three lower
resolution cameras.
For cameras in applications such as
sports stadiums, dome cameras can pick out
individuals at even greater distances with exceptional
clarity. Higher resolutions are also
important for playback. For example, when
an incident has occurred the operator can
zoom into the image to obtain greater detail
at a distance.
Recovering Video after
a Network Failure
Networks can be vulnerable. When a network
goes down, so does the video. However, some
cameras allow video to be recorded directly
onto the camera’s Secure Digital (SD) card
during a network failure. This process is ideal
for “brown outs,” when the network is only
down for a short amount of time. If the system
is down for days, some video will be lost.
When connectivity is re-established, the
recorded video trickles back to the network
video recorders and is placed seamlessly into
video storage at the correct date and time.
However, all the video cannot be transmitted
at the same time, since this would prevent
“live” video from being stored. The
stored video is transferred from the SD card
to the server alongside the live video. The
process takes a little longer, but it ensures no
video is lost.
Removing the Bubble
Since the days of analog surveillance, the industry
has added a polycarbonate-type cover
(bubble) around dome cameras. In the early
days of IP megapixel cameras, the adverse effect
of the bubble was negligible. However, as
the resolution of cameras has improved, the
quality of the bubble cover cannot keep pace.
After removing the bubble, the megapixel
resolution sensors are not hindered and can
deliver superior resolution and image quality.
The elimination of the bubble has other positive
effects. For example, sports stadiums often
combine artificial and natural light, which
can catch the sides of camera bubbles creating
reflections and glares that obscure images. In
addition, when dome cameras have built-in
infrared illuminators, they are free from any
possibility of internal reflection.
By using built-in illuminators, there is a
huge saving with respect to installation, operational
and environmental costs. Since the
illuminators are built-in and continually following
the camera’s field, the requirement for
separate illuminators (more lamps, external
wiring, time and cost) will be eliminated.
Beyond the issue of illumination as it pertains
to camera bubbles, surveillance equipment
often has a limited visual field that
stops at the horizon. Historically, the middle
of the lens has been the clearest area for
capturing video. For example, if you place a
mini-dome camera on a wall looking down
a corridor, due to the nature of the lens it is
possible to have blind spots if the camera can
only tilt up to the horizon.
However, advancements in lens capabilities
are allowing cameras to see clearly even
above the horizon. When looking up a high
street in a town center with a pan, tilt and
zoom lens, many objects will appear just
above the horizon and can be clearly seen
since they are not obstructed by the edge of
the bubble.
The bubble on most dome cameras is not
totally spherical. Toward the edge, it flattens
out before it enters the housing. At this
point, the distance can change between the
lens and bubble and can impact the focus of
the camera.
Improvements in
Night Surveillance
We see things because light reflects off objects
into our eyes—and surveillance cameras
are no different. At night, when there
is less light to be reflected, the camera will
switch from color to monochrome mode.
It takes much less light to create a monochrome
image than a color image projecting
hundreds of variations. To further improve
the situation, cameras can integrate several
frames together, capturing more light from
the same scene and creating a clearer image
at night.
Color rendition or color matching is
important when identifying or following
a suspect. The color seen in a surveillance
camera’s image must be the same as what
the human eye sees. Capturing true color in
bright sunlight is relatively easy. However,
capturing multiple types of light levels and
light sources experienced during a 24-hour
period takes great skill. Innovative engineering
has given some cameras the ability to ensure
the colors are a precise match.
Many features and functions on a camera
are programmed for an optimal setting
at the time of installation and then typically
left until the next service call or customer request.
This setting may be ideal most of the
time, but because the environment the camera
works in changes on a constant basis, it is
not completely reliable. New technology allows
cameras to automatically adjust “white
balance” to maintain the optimum image
quality 24/7 without the need for operator
interaction.
Future of Video
Surveillance
Machine learning capabilities are currently
being added to video management systems
and network video recorders to take the rich
data obtained by IP cameras and translate it
into actionable intelligence. We are starting
to see technology that allows video surveillance
tools to differentiate between objects
and people as well as being able to configure
themselves based on a scene’s requirements.
While video surveillance and its integration
with the Internet of Things (IOT) are currently
focused on residential spaces, it is now making
its way into commercial applications as a part
of building enterprise management. A surveillance
camera is a sensor that creates data, and
its optical sensors create huge potential for
commercial buildings, including heating, lighting,
HVAC, parking, etc. This data can be fed
into the building management system to help
facility managers, operation managers, HR
managers and others maintain a building at
peak performance.
This article originally appeared in the April 2019 issue of Security Today.