2.1 inexpensive, small, have an extended battery lifestyles

2.1 History

2.1.1Infsoft Smart Connected Locations

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In 2015, Infsoft
Smart Connected Locations Company has made a solution for indoor positioning by
using Bluetooth and Wi-Fi 5. By the time they detect that Bluetooth is much
better than the Wi-Fi for many reasons such as accuracy, battery life time, and

They start to use
UWB it has many advantages like high accuracy, low latency of time, and almost
no interferences, but it have some disadvantages such as cost intensive and
shorter life time battery than BLE beacons. They also try to use RFID and it
showed some Advantage like very high accuracy, no interferences and no battery
needed. The main disadvantage of RFID is that have very short range (less than
1m) so it’s a bad choice. Other disadvantage that the installation requires
significant planner and infrastructure can be expensive and need many number of
RFID to cover a small room which have high cost .

2.1 Types of Beacons and its properties Advantages

unremarkable hardware

energy consumption

integration into the existing infrastructure (battery-powered or power supply
via lamps and the domestic electrical system)

where other positioning techniques do not have a signal

with  iOS and Android

accuracy compared to Wi-Fi (up to 1m) Disadvantages

Additional hardware

App is required for
client based solutions

Relatively small


2.2 Available Technologies


The technologies used today
for indoor positioning differ in terms of accuracy, costs and effort, but have
improved quickly in the last couple of years.

2.2.1 Bluetooth Low Energy

Low strength (BLE) alerts from
battery pushed beacons are at the center of the
indoor region generation. It’s one of
the latest technology that has emerged and end up an industry popular to
be had on most gadgets today. It makes use
of so known as BLE beacons which are inexpensive, small,
have an extended battery lifestyles and do now
not require an external electricity supply 36.
The tool detects the sign from the beacon and
may calculate more or less the space to the beacon
and therefore estimate the area.

2.2.2 Wi-Fi

Wi-Fi can be used in a similar way as BLE beacons, but
requires an external power source, more setup costs and pricy equipment 7.and
from Wi-Fi Advantage the signal is stronger and it can cover more distance than


2.2.3 Magnetic Field Detection

field detection using the compass sensor on a device can also
be used for indoor positioning. A so called “fingerprinting” technology is used
to map the magnetic fields on the venue and then the device can use that map to
find its location indoors.  This technology can only be applied in certain
circumstances where the magnetic fields indoor are stable.




2.2.4 Near Field Communication

The NFC (Near Field
Communication) technology consists of
small chips that do not require a power source Which is one of these advantage and
the device will detect the chip and read its serial number if the device is
within 30 cm away from the chip which is too low range and consider from this
disadvantage. This technology is being applied now in Point Of Sale(POS)
systems but can as well be used for precise indoor positioning within 30 cm.
 The NFC technology is only available on newer phones so it will take some
time for it to take a foothold 8. It will replace the conventional QR codes
as it is more convenient because QR codes need to be visible and require a good
light and camera.

2.2.5 Gyroscope and Accelerator meter

A gyroscope is a device for measuring or maintaining
orientation, based on the principles of conservation of angular momentum. Most
smart phones have a built in gyroscope and compass 8. The device can use
this information in addition to the other technologies mentioned for even more
precise positioning.



After studding and
comparing the technologies. We decided to enter indoor positioning market with
BLE technology because it is reliable, accurate enough, easy to maintain and
requires little installation work.

2.3 Current Alternative System

Indoor positioning technology is becoming commercially available in
various forms and quality this year. It’s a jungle out there and no one proven
method has been sufficient for all purposes unlike the outdoor positioning with
the use of GPS satellite technology.

systems have played a major role in people’s lives since the GPS satellite
technology became publicly available in the late 90’s. Today
almost everyone has a device with positioning capabilities like smart
phones, tablet, GPS tracking device or a watch with built-in
GPS.The GPS revolutionized outdoor positioning. Now 15 years later, the
positioning technology goes indoor and new possibilities emerge for indoor use.
Satellite-based positioning doesn’t work indoor, but other technological
standards have emerged that make indoor positioning possible. Positioning
indoor is more complicated than outdoor positioning using GPS because
a certain infrastructure needs to be in place indoor.  GPS signals don’t
work indoors or in narrow streets as they tend to attenuate and scatter by
roofs and walls.



2.3.1 Locatify


At Locatify They decided to enter indoor positioning market
with BLE technology because it is reliable, accurate enough, easy to maintain
and requires little installation work. They are also committed to further
develop the system integrating other technologies for indoor positioning.    Methodology (Positioning the User)


BLE beacons are the cornerstones of indoor positioning.
 With this technology, The Range can be detected by BLE Beacons .Last
couple of years positioning are based on BLE devices. First prototypes were
only able to detect which Beacon is closest to the user, but today They are
able to use distance data from many beacons and position the user in 2D space
on indoor map 8.

This technology will develop further offering even more
precise positioning. This will be achieved by utilizing as well the use of
magnetic field detection, gyroscope, accelerator meter and Near Field
Communication (NFC) chips.