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Copyright 2008, The Johns Hopkins University and Stan Becker. All rights reserved. Use of these materials permitted only in accordance with license rights granted. Materials provided “AS IS”; no representations or warranties provided. User assumes all responsibility for use, and all liability related thereto, and must independently review all materials for accuracy and efficacy. May contain materials owned by others. User is responsible for obtaining permissions for use from third parties as needed.
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Population Change and Projection
Stan Becker, PhD Bloomberg School of Public Health
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Section A
Rate of Change, Doubling Time, and the Relationship between Age
Distinction and Demographic Rates
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4
Population Change
Book-keeping equationLet Pt = Population at time “t”
P0
= Population at an earlier time “0”B =
Births between time “0”
and time
“t”D = Deaths between time “0”
and “t”
I = In-migration / immigration between time “0”
and “t”
O =
Out-migration / emigration between time “0”
and “t”
Continued
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5
Population Change
The population changes by adding births and in-migrants and subtracting deaths and out-migrants
Let b = Number added per time unit
OIDBPP 0t −+−+=
tPPb 0t −=
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6
Linear Change
The population size changes by exactly the same amount “b” during each time period “t”
btPP 0t +=
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7
Linear Annual Rate of Change Beginning of Period Approximation
ri = linear annual rate of change (beginning of period approximation)
0
0ti tP
PPr −=
0i0t PtrPP ∗∗+=
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8
Linear Annual Rate of Change Arithmetic or Mid-Point Approximation
rm = linear annual rate of change (arithmetic or mid-point approximation)
)PP(2/tPP
)PP(2/1br
to
0t
tom +
−=
+=
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9
Exercise Linear Annual Growth Rate
The Mexican population was estimated at 77,938,288 at the 1985 census and at 91,158,290 at the 1995 censusCalculate the linear annual growth rate using both types of approximations
You have 15 seconds to calculate the answer. You may pause the presentation if you need more time.
Source: U.N. Demographic Yearbook, 1992 and 1997
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10
Exercise Answer Linear Annual Growth Rate
The correct answers are as follows:ri
rm
1.70% 1.56%
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11
Problem with the Linear- Change Approach
Adding a fixed amount in each time period ⇒ the rate of change decreases because b / Pt -> 0Say b = P0
Then P1 = P0 + P0 = 2P0
P2
= P1
+ P0
= 3P0
Continued
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12
Problem with the Linear- Change Approach
So
1P1PPr0
011 =
∗−
=
32
P 23P
)PP(21PPr
0
0
10
01m1
==
+−
=
Continued
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13
Problem with the Linear- Change Approach
And each continues declining
21
P2P2P3
P1PPr
0
00
1
122
=−
=
∗−
=
52
P25P
)PP(21PPr
0
0
21
12m2
==
+−
=
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14
Geometric Change
The population changes by step, i.e., the increment added (or the decrement is subtracted) periodically
Where rg = geometric rate of growth
tg0t )r1(PP +=
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15
Geometric Annual Rate of Change
1 e 1PP r
0PtPln
t1
t
0
tg −=−=
⎟⎟⎠
⎞⎜⎜⎝
⎛
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16
Exercise Geometric Annual Rate of Change
The Mexican population was estimated at 77,938,288 at the 1985 census and at 91,158,290 at the 1995 censusCalculate the geometric annual growth rate
You have 15 seconds to calculate the answer. You may pause the presentation if you need more time.
Source: U.N. Demographic Yearbook,
1992 and 1997
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17
Exercise Answer Geometric Annual Rate of Change
The correct answer for rg is as follows:–
1.58%
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18
Exponential Change
The population changes instantaneously and continuously
rt0t ePP =
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19
Exponential Growth Rate
Exponential growth rate
The advantage of the exponential method is that it’s easy to solve for any parameter
PP ln
t1 r
0
t⎟⎟⎠
⎞⎜⎜⎝
⎛=
rPP ln
t 0
t⎟⎟⎠
⎞⎜⎜⎝
⎛
= rtt
0ePP =
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20
Exercise Exponential Growth Rate
The Mexican population was estimated at 77,938,288 at the 1985 census and at 91,158,290 at the 1995 censusCalculate the exponential growth rate
You have 15 seconds to calculate the answer. You may pause the presentation if you need more time.
Source: U.N. Demographic Yearbook,
1992 and 1997
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21
Exercise Answer Exponential Growth Rate
The correct answer for “r” is as follows:–
1.57%
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22
Relation Between Rates of Change Geometric and Exponential
...!3
x!2
xx1e since32
x ++++=
rr g >⇒
1er rg −=
...!2
rrr then2
g ++=
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23
Rate of Natural Increase
Let B = Births during a calendar yearD
= Deaths during same year
P = Midyear populationb = Birth rated = Death rate
Continued
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24
Rate of Natural Increase
Most direct indication of how rapidly a population actually grew as the result of vital processes
Is influenced by age structure
d - b
1000P
DBr
=
∗−
=
DB 0 rD B 0rBD 0 r
>⇒>=⇒=>⇒<
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25
Doubling Time
Calculation based on exponential growth (“r” fixed in time)Allows determination of how long it will take a population to double in size (i.e., time for Pt / P0 = 2)
Continued
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26
Doubling Time
Since
Then for doubling time
rPP ln
t 0
t⎟⎟⎠
⎞⎜⎜⎝
⎛
=
r)2ln(t =
Continued
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27
Doubling Time
Approximation
100r70t∗
=
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28
Rate of Number of Rate of Number ofGrowth Years Growth Years
1.0 69.3 2.0 34.71.1 63.0 2.1 33.01.2 57.8 2.5 27.71.3 53.3 3.0 23.11.4 49.5 3.5 19.81.5 46.2 4.0 17.3
Some Examples of Doubling Times
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29
-10
40
90
140
0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0Rate of Growth
Num
ber
of Y
ears
Number of Years Necessary for the Population to Double at Given Fixed Annual Rates of Growth
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30
Exercise Doubling and Tripling Time
The Mexican population was estimated at 77,938,288 at the 1985 census and at 91,158,290 at the 1995 censusAssuming Mexico's population is growing exponentially, what is its doubling time?In what year will the mid-1975 population have tripled?You have 15 seconds to calculate the answer. You may pause the presentation if you need more time.
Source: U.N. Demographic Yearbook,
1992 and 1997
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31
Exercise Answer Doubling and Tripling Time
The correct answers are as follows:–
Doubling time = 44.2 years
–
Tripling time = 70.1 years–
Year will triple = 2045
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32
The Relationship between Age Distribution and Demographic Rates
Age distribution of a population gives a record of the demographic history of that population
Continued
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33
The Relationship between Age Distribution and Demographic Rates
Age distribution is sensitive to changes in demographic rates, particularly fertility and, for small areas, migration ratesIn a closed population (i.e., no migration) the age distribution is determined only by fertility and mortality
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34
Summary
Population change is measured by the difference between population sizes at different dates As time goes by, the population in an area can do the following:–
Grow by adding births or people moving in the area (in-migrants)
–
Or it can decrease because of deaths or people moving out of the area (out-
migrants)Continued
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35
Summary
The simplest method to estimate the population at a later time from that of an earlier date is the bookkeeping method, which adds the births and in-migrants to the initial population and subtracts the deaths and out-migrants
Continued
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36
Summary
Mathematical models have been developed to estimate the average annual rate of change based on different assumptions on the way the population has grown during the period
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Section B
Projection
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38
Population Projection
Population Projection—Forecast of population change using estimates of fertility, mortality, and migrationProjections may extend for varying numbers of years into the futureNote: –
Extrapolation = projection
–
Interpolation = estimation
Continued
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39
Population Projection
Long-term projections (over 25 years) are used in connection with the development of natural resources, planning for provision of food, for transportation and recreational facilities, etc.Middle-range projections (10–25 years) are used for planning educational and medical facilities and services, housing needs, etc.
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40
Component Method
Has become the standard methodology for projectionMakes explicit the assumptions regarding the components of population growth—mortality, fertility, and net migration Gives insight into the way population changes
Continued
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41
Component Method
Allows the user to estimate the effect of alternative levels of fertility, mortality, or migration on population growthUsed to obtain projections of age-sex structure
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42
General Principles
Start with the population distributed by age and sex at base dateApply assumed survival rates and age-sex specific fertility rates to obtain number of persons alive at the end of a unit of time
Continued
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43
General Principles
Make allowance for net migration by age and sex, if desiredGenerally five-year age groups are usedProjection interval must be integer multiple of age interval
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44
Population Projection
Projection assuming closed population, constant fertility, and constant mortality
–
Let x
=
Age 5, 10, …, wt =
Time “t”
5
Lx
=
Life table number of personsbetween ages “x”
and “x+5”
at time
“t”=
Survival ratio from age group (x-5, x) to age group (x, x+5)55
5
−x
x
LL
Continued
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45
Population Projection
Projection of the population aged 55 to 59 from 1990 to 1995
555
60519905955
1995
6460 LL
PP ∗=−−
5x5
x5tx , 5x
5t5x , x L
LPP
−−
++
∗=
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46
Treatment of Open-Ended Interval
Where w+ refers to the oldest age group
w
5)(wt
w5w5
w5t5w
5t w T
TP
LL
PP +
+−
−++
∗+∗=
Continued
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47
Treatment of Open-Ended Interval
Keyfitz’s method
–
In stationary population
85
90t85
805
855t805
5t85 T
TP
LL
PP ∗+∗= +++
805
8580585
85
805
85
805
LTP
PTL
PP ∗
=⇒= ++
Continued
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48
⎟⎟⎠
⎞⎜⎜⎝
⎛∗+∗=+
+85
90
805
85
805
855t805
5t85 T
TLT
LL
PP
Treatment of Open-Ended Interval
–
Substituting
805
85805 L
TP ∗=
⎟⎟⎠
⎞⎜⎜⎝
⎛ +∗=
805
90855805 L
TLP
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49
Let 5Lx = Number of survivors between ages “x” and “x+5”
5
Ffx
= Female fertility rate for age group (x, x+5)
x = Age “x”
Getting P0-4 at Time t+5
Continued
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50
Getting P0-4 at Time t+5
Also let α = Beginning age of reproductionβ
=
End of reproductive age
5
Fx
= Female fertility rate for age group x, x+5
Continued
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51
Getting P0-4 at Time t+5
= Survivors to time “t+5”
of births that occurred between “t”
and
“t+5”
5t05P +
⎥⎦
⎤⎢⎣
⎡∗⎟⎟
⎠
⎞⎜⎜⎝
⎛∗+∗= ∑
−
−=+
+5β
5αxx5
f5x5
x5
5x5fx5
0
05 P FL
LF2Ll
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52
Getting P0-4 at Time t+5 - Derivation
Births in one year =
( ) +∗⎟⎟⎠
⎞⎜⎜⎝
⎛∗+∗ 155105
105
155155 F P
LL
P1/2
( ) 405355355
405405 F P
LL
P1/2... ∗⎟⎟⎠
⎞⎜⎜⎝
⎛∗+∗+
( ) ∑−
−=+
+ ∗⎟⎟⎠
⎞⎜⎜⎝
⎛∗+∗=
5β
5αxx55x5
x5
5x5x5 P F
LL
F1/2
Continued
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53
Getting P0-4 at Time t+5 - Derivation
Births in five years =
( ) ⎥⎦
⎤⎢⎣
⎡∗⎟⎟
⎠
⎞⎜⎜⎝
⎛∗+∗∗ ∑
−
−=+
+5β
5αxx55x5
x5
5x5x5 P F
LL
F1/25
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54
Population Projection
To get P0-4, births must survive an average of 2.5 years
⎥⎦
⎤⎢⎣
⎡∗⎟⎟
⎠
⎞⎜⎜⎝
⎛∗+∗∗= ∑
−
−=+
++5β
5αxx55x5
x5
5x5x5
0
055t05 P F
LL
F5L
25
Pl
⎥⎦
⎤⎢⎣
⎡∗⎟⎟
⎠
⎞⎜⎜⎝
⎛∗+∗= ∑
−
−=+
+5β
5αxx55x5
x5
5x5x5
0
05 P FL
LF2
Ll
⎥⎦
⎤⎢⎣
⎡∗⎟⎟
⎠
⎞⎜⎜⎝
⎛∗+∗= ∑
−
−=+
+5β
5αxx55x5
x5
5x5x5
0
05 F PL
LP
2Ll
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55
Matrix Representation
1st row represents fertility rates and 0–5 survivalSub-diagonal represents survival ratios from one age group to anotherNote: The rest of the matrix (L) has zeros
Continued
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56
⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥
⎦
⎤
⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢
⎣
⎡
⎟⎟⎠
⎞⎜⎜⎝
⎛∗+⎟⎟
⎠
⎞⎜⎜⎝
⎛∗
=
5-w
w
10-w
5-w
5
10
0
5
2015
2015
0
015
10
15
0
0
TT
LL . . . 0 0 0 0
.
.
.
.
.
.
.
.
.
.
.
. ...
0 0 . . . 0 0 LL 0
0 0 . . . 0 0 0 LL
0 0 . . . FLLF
2L F
LL
2L 0 0
L
ll
Matrix Representation
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57
Population Projection
To get the population at a later date
5tt PPL +=∗
etc.PLPPL t210t5t ∗==∗ ++
Continued
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58
Population Projection
To project the total population at a later date–
First, use the female projection and fertility rates for both boy and girl births
–
Then, put the male births into male projection
–
Note: The male matrix only contains survival ratios
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59
Projection Adjusting for Net Migration (NM)
Where NM = Net migrationIt is easiest to take net migration into account at the end of each time intervalGetting estimates of net migration by age and sex, and projected numbers by age and sex, may be difficult
NMPLP t5t +∗=+
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60
Projection Adjusting for Changes in Fertility and Mortality
Let Li = Projection matrix for ith intervalL0
= Projection matrix for first interval
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61
Population Projection
Ex: At time t+10
Or more generally
Where Li = Projection matrix for ith time interval
( ) PL LP t0110t ∗∗=+
t02n1nn5t PL ...LLP ∗∗∗= −−∗+
Continued
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62
Population Projection
Note: Stable population results from unchanging rates of births and deathsSince Ln “stabilizes” when “n” gets large (i.e., for every element), its value in “Ln+1”divided by its value in “Ln” converges to a constant “λ”
Continued
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63
tnt1n PLλPL ∗∗=∗+
and ,PP so 5tt +=∗λ
notation continuous in rt
t
ePP 5
5
==+
λ
Population Projection
Therefore:
Continued
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64
Population Projection
Several variations of projection exist for changing rates–
Change fertility rates by x% and/or mortality rates by y%, at each step
–
Fix final levels of fertility and mortality and interpolate between the two time periods
–
Note: Net migration can also be easily made to vary
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65
Projection for Small Areas
Internal migration (e.g., rural-urban migration) may be importantPopulation projection for political units with relatively few boundary changes (e.g., states) and for statistical subdivisions with boundaries changing (e.g., urban/rural) are two different problems
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66
Ratio-Correlation or Regression Methods
Define:
Write equation (can use different number of Xs):
...XXY i22i11i +++= ββα
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67
Projection for Small Areas
For example:
Continued
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68
Projection for Small Areas
Estimate α, β1, β2 statistically, and use these to predict Yi for some future time t2–
Note: Yi is a percent and if all areas are done, the percentages may not add to 100
So, they must be adjusted to 100 and then multiplied by the estimated total population at t2 to get the projection for area “i” at that time
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69
Administrative Records
Pt = Total population at time “t”Ht
= Occupied housing units at time “t”PPHt
= Average number of persons per household at time “t”
GQt
= Population in group quarters at time “t”
Pt
= Ht
x PPHt
+ GQt
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70
Combined Methods
Average of several methodsMethod used by the U.S. Census Bureau
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71
Judging Projections
The evaluation of projections requires some standard by which to judge their qualityOne may reasonably compare a projection with the population actually recorded later using percent differences to indicate how far it deviates from the actual figure
Continued
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72
Judging Projections
The concept of “accuracy” becomes less meaningful where several series of projections are offered as reasonable possibilities, and particularly where none is offered as a “forecast”The United Nations uses high, medium, low, and constant (unchanging fertility and mortality) projections
Continued
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73
Judging Projections
Where possible, it may be more profitable to compare the actual components of population change (i.e., births, deaths, and net migration) with their projected figures because it provides insight into the reasonableness of the various assumptions
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74
Proportional Error
Hindsight, calculate the proportional error:
Where Pactual = Actual population(e.g., census count at time “t”)
Pproj
= Population projection for time “t”
Proportional error = Pactual − Pproj
Pactual
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75
Population Projection
One can also assess projections by looking at the width of the range from the highest and the lowest series in a set of principal projections
Continued
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76
Population Projection
This width of the range depends on the regularity of the following:–
Past demographic trends, knowledge regarding past trends
–
Ability to measure them accurately –
Analyst’s judgment of the likely course of future change
Continued
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77
Population Projection
As the range widens, the analyst is indicating that he/she has less and less confidence in the projections
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78
Adapted from John Bongaarts
and Rodolfo A. Bulatao, Editors, Beyond six billion, National Academy Press, 2000
Error in Projected Population by Target Year: Means across Countries and
Forecasts
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79Source: John Bongaarts and Rodolfo A. Bulatao, Editors, Beyond six billion, National Academy Press,
2000
Proportional Error by Projection Length: Percentile for All Countries
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80
Uses of Projections
Forecasting future population changeWarning of population increase or decreaseSensitivity analyses to see how population will change with changes in assumptions about fertility, mortality, and/or migration
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81
Examples of Applications
Projection of population by age and sex to estimate the age distribution of the population at a later dateProjection of children of school-age and apply school enrollment ratios to evaluate the needs in teachers and schoolsProjection for the labor force
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82
Computer Programs
Examples:
–
DEMPROJ (Futures Group International) to create projections for policy presentations or planning exercises and to produce the inputs required by the other programs of the integrated package SPECTRUM
–
IPSS (SENECIO Software Inc.) for interactively exploring population dynamics, population projection, and the life table program for Macintosh
Source: UN , Statistics Division—UNFPA—Population Information Network
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83
Population Projection
Contact:Director
Population Division, United NationsUnited Nations Plaza, Rm. DC2-1950
New York, NY 10017 USA
Fax: (212) 963-2147Email: [email protected]
Population Information Network (POPIN) web site: http://www.undp.org/popin
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84
Summary
Population projection is a forecast of population change using estimates of fertility, mortality, and migrationNo projection is 100 percent accurate, i.e., there is always some degree of uncertaintyThe United Nations uses low, medium, high, and constant projections
Continued
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85
Summary
Various computer programs have been developed to help the demographer simulate the effects on population size of different rates of fertility and mortality