Chapter 7 - Navigation Systems and Aids 3

Question 1

What does INS stand for?

Answer 1

Inertial Navigation System

Question 2

What is an INS?

Answer 2

A SELF-CONTAINED navigation system using inputs from accelerometers and gyroscopes to determine and track position, orientation and velocity.

Given a known start point, an INS can measure angular and linear changes to calculate position and velocity.

Question 3

What does a typical INS comprise of?

Answer 3

Frame mounted gimbals driven by motors.

Accelerometers and gyroscopes (motion sensors) mounted on a gyro-stabilised platform or module.

A computer

Aircrew interface

Cockpit displays (MFD moving map, HUD, EHSI, etc)

Question 4

How many accelerometers does an INS typically have?

Answer 4

3

One measures North-South

One measures East-West

One measures in the vertical plane

Question 5

How many gyros does a typical INS have?

Answer 5

3 RATE gyros

One gyro detects rotation about the North (longitudinal) axis (roll).

Another detects rotation about the East (lateral) axis (pitch).

The third detects rotation about the vertical.

Question 6

How does an INS platform prevent displacement?

Answer 6

Signals from the gyros are fed to their associated gimbal motor to correct any changes in orientation.

Question 7

Signals from the accelerometers are sent via an amplifier to two integrators. These integrators are time multiplication devices.
What values do these integrators provide?

Answer 7

First multiplies the acceleration signal by time to get velocity.

Second multiplies the velocity by time to get distance.

Question 8

What must be done to an INS before use to ensure it is accurate?

Answer 8

Must be aligned, i.e. told where it is and what direction it is facing.

Aircraft must remain stationary during alignment.

Question 9

What are two methods by which the INS can be provided with a starting point?

Answer 9

1 - Manual input of lat and long coordinates

2 - Drawing data from another system, e.g. GPS

Question 10

What are the stages of INS alignment?

Answer 10

Warm up

Coarse Levelling

Fine Levelling

Gyro Compassing

Question 11

Explain the ‘Warm Up’ stage of INS alignment?

Answer 11

INS systems are designed to operate at an optimum temperature.

The optimum temperature for the gyro and accelerometer fluid is approx. 70 degrees celsius.

Question 12

Explain the ‘Gyro Compassing’ stage of INS alignment?

Answer 12

East-West gyro detects Earth’s rotation.

Azimuth gimbal is torqued until the output from the East-West gyro reduces to zero.

Question 13

What INS systems do most modern military aircraft use?

Answer 13

Strapdown INS

Question 14

What is Strapdown INS?

Answer 14

Strapdown INS is fixed to the aircraft, i.e. there are no gimbals.

Uses modern computing/electronics, optics and solid state tech instead, e.g. Ring Laser Gyroscopes (RLGs).

Question 15

What are the advantages of strapdown INS?

Answer 15

Cheaper

More reliable

More rugged

(than than gimballed systems)

Question 16

When is Schuler Tuning error at a minimum?

Answer 16

84.4 mins

and the initial 0 mins

Question 17

When is Schuler Tuning error at a maximum?

Answer 17

21.1 mins and 63.3 mins

Question 18

What errors can affect INS systems?

Answer 18

Gimbal Lock

Strapdown INS electronics require careful alignment and cross checking with other navigation systems

NOTE - INS should be regularly cross checked with the visual navigation picture and other navigation instruments/systems

Question 19

What is NAVSTAR?

Answer 19

The US space-based radio positioning system which provides GPS service.

Question 20

What information does the GPS constellation of satellites provide?

Answer 20

PVT - Position, Velocity, Time

Question 21

How high is the orbit of the GPS satellites, what is their speed and how often do they orbit the Earth?

Answer 21

12500 miles above Earth’s surface

7000 mph

Orbit Earth twice per day
(approx. 12 hour orbital period)

Question 22

How many satellites are in the GPS constellation and how many are in use at any one time?

Answer 22

27 airborne satellites

24 in use at any one time

Question 23

How many orbital planes are the GPS satellites in and how many satellites are in each plane?

Answer 23

6 orbital planes

4 to 5 satellites in each plane

Question 24

How many GPS satellites are normally observable anywhere on Earth?

Answer 24

5

Question 25

What makes up the GPS Control segment?

Answer 25

Master Control Station (MCS) - Hub is in Colorado Springs

Monitoring Stations (MSs)

Ground Antenna (GA)

Question 26

What is the role of the GPS Control segment?

Answer 26

Monitors and maintains the GPS system via the Master Control Station (MCS), Monitoring Stations (MSs) and Ground Antenna (GA).

Question 27

How many MSs are there in the GPS Control segment and what is their role?

Answer 27

5 primary MSs

Passively track all GPS satellites in view.
Ranging data is passed to the MCS where each satellite ephemeris (position info) and clock parameters are estimated and predicted.

Question 28

Some MSs are paired with a Ground Antenna, what is the role of a GA?

Answer 28

To communicate error corrections to the satellites.

Question 29

What are the 3 GPS segments?

Answer 29

Control Segment

User Segment - Mil or civi with GPS receivers which can decode and process the satellite signals

Space Segment

Question 30

What are the two frequencies GPS satellites transmit on?

Answer 30

Link 1 (L1) - 1575.42MHz

Link 2 (L2) - 1227.6MHz

Question 31

What are the two GPS services provided?

Answer 31

C/A - Coarse Acquisition - Transmitted on L1

P - Precision Code - Transmitted on L1 and L2

Question 32

What are the two GPS services available?

Answer 32

Standard Positioning Service (SPS)

Precise Positioning Service (PPS)

Question 33

What is the accuracy of the SPS?

Answer 33

+/- 8m

Question 34

What is the accuracy of the PPS?

Answer 34

+/- 4m

Max accuracy obtained from the P(Y) code on L1 and L2

Question 35

What is the purpose of the Selective Availability (SA) feature on the PPS?

Answer 35

Can be used to reduce the accuracy to unauthorised users by introducing controlled errors into the signals

Question 36

What is ‘first fix’ with a GPS receiver?

Answer 36

The receiver determines which satellites are visible/available and selects one to track.

It can then work on receiving data from the 3 other satellites required to provide full info.

Question 37

What are the 4 types of GPS receiver?

Answer 37

Continuous - Must have at least 4 hardware channels in order to track 4 satellites simultaneously

Sequential - Tracks the necessary satellites by using one or two hardware channels at any given time. Takes one second to receive position of best places satellites.

Multiplex - Reads from all available satellites (of the 4 being tracked) every 20 milliseconds

All-in View - Designed to use all available satellites

Continuous, Sequential, Multiplex, All-in View

Question 38

What GPS errors can occur?

Answer 38

Insufficient satellite availability

Ionospheric effect

External reference and masking - LoS (e.g. in a valley)

Multipath effects - Caused by signal reflection, i.e. you receive the reflected signal, not the one directly from the satellite

Question 39

How can some of the potential GPS errors be minimised?

Answer 39

Use “Differencing”, aka Differential GPS (DGPS)

Details in course manual if required.