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Forecasting epidemic: Time series modelling

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Title: Forecasting epidemic: Time series modelling


1
Forecasting epidemic Time series modelling
  • Dr Cho-Min-Naing
  • Medical Officer (Malaria/DHF)
  • The National Vector Borne Diseases Control
    Project, Yangon, Insein PO, Myanmar
  • Email

2
Learning objectives At the end of this
session,
  • 1. the participant should understand
    forecasting methods.
  • 2. the participant should know concepts behind
    forecasting models.

3
Performance objectives 1. the participant
should be able to develop times series model for
forecasting epidemic.
4
I. Background
  • Unaided, subjective judgements to warn of
    forthcoming events and changes are not as
    accurate and effective as systematic, explicit
    approaches to forecasting.
  • This does not mean there is error free
    forecasts. This does mean explicit systematic
    forecasting approaching can provide substantial
    benefits when used properly as all types and
    forms of forecasting techniques are made
    available within the existing data.

5
II. Forecasting methods There are three major
categories as stated below.
  • 1. Judgmental method
  • 2. Quantitative method
  • 3. Technological method

6
1. Judgmental method Forecasts are made as
individual judgements or by committee agreement
or decisions.
7
2. Quantitative method To know what will
happen, but not why something happens.There are
three subcategories of this method2.1 Times
series methods Seek to identify historical
patterns (using time as a reference) and then
forecast using a time-based extrapolation of
those patterns.2.2 Explanatory methods Seek to
identify the relationships that lead to observed
outcomes in the past and then forecast by
applying those relationships to the
future.2.3 Monitoring methods Seek to identify
changes in patterns and relationships.
8
  • 3. Technological method
  • Address long-term issues of a technological,
    societal, political or economic nature.
  • 3.1 Extrapolative methods using historical
    patterns and relationships as a basic for
    forecasts
  • 3.2 Analogy-based methods using historical and
    other analogies to make forecasts
  • 3.3 Expert-based methods
  • 3.4 Normative-based methods using objectives,
    goals, and desired outcomes as a basic for
    forecasting, thereby influencing future events.

9
  • III. Selection points for the appropriate
    forecasting techniques.
  • When we have to concern with application of
    forecasting in our decision making, we need to
    iterate the importance of selecting the
    appropriate forecasting techniques. In this
    context, there are six points that play an
    important role in determining the requirements
    for an appropriate technique.
  • 1.Time horizon Generally, time horizon can be
    divided into short term (1 to 3 months) immediate
    term (less than 1 month), medium term (3 months
    to 2 years), and long term (2 years or more). The
    exact length of time used to classify these four
    categories is subject to vary by organization and
    situation.

10
III. Selection points for the appropriate
forecasting techniques. (cont.)
  • 2. Level of aggregate detail In general, the
    greater the level of detail (and frequency) that
    is required, the greater the need for an
    automated forecasting procedure, and vice versa.
  • 3. Number of items The larger the number of
    items involved (all other things being equal),
    the more accurate the forecasts.
  • 4. Control versus planning In control,
    management by except is the general procedure.
    Thus, a forecasting method in such situation
    should be able to recognize changes in basic
    patterns or relationships at an early stage. On
    the planning side, it is generally assumed that
    the existing patterns will continue in the
    future, the major emphasis is on identifying
    those patterns and extrapolating them into
    future.

11
III. Selection points for the appropriate
forecasting techniques. (cont.)
  • 5. Constancy Forecasting a situation that is
    constant over time is very different from
    forecasting one that is in a state of flux. In
    the stable situation a quantitative forecasting
    method can be adopted and checked periodically to
    reconfirm its appropriateness. In changing
    circumstances, what is needed is a method that
    can adopt continually to reflect the most recent
    results and the latest information.
  • 6. Existing planning procedure The greater the
    competition (all other things being equal), the
    more difficult to forecast. Based on the outcomes
    of forecasting models, there is built in
    resistance to change in any organization. The
    change can be made in a stepwise manner, rather
    than all at once.

12
IV. Concepts behind the times series
analysisIn man, the conflict is what is
desired and what should be desired. In the
animal, the conflict is what is and what is
desired.Rabindranath Tagore, Personality What
is art?
13
  • Time series forecasting treats the system as
    black box and makes no attempt to discover the
    factors affecting its behavior. It explains only
    what will happen, but not why something happens.
    The general formula for the time series model is
  • Actual pattern randomness
  • The common goal in the application of forecasting
    techniques is to minimize these deviations or
    errors in the forecast. The errors are defined as
    the differences between the actual value and what
    was predicted.

14
  • V. The decomposition method
  • We will selectively present the decomposition
    method, assuming that the data can be broken down
    into the various components and a forecast
    obtained for each component.
  • Advantage 1. The simplicity of the procedures
  • 2. Ease for computational
    procedures
  • 3. The minimal start-up time
  • 4. Accuracy especially for short-term
    forecasting
  • Disadvantage Not having sound statistical theory
    behind the method
  • Times series model can basically be classified
    into two types additive model and multiplicative
    model.

15
  • The forecast for Y in the year t is generally
    written as
  • Yt f (Trt, Snt, Clt, ?t )
  • Y forecast y
  • f function
  • Tr trend
  • Sn seasonal variation
  • Cl cycle
  • ? error
  • t the time period
    being examined (t 1, 2, i ).

16
  • Additive model
  • 1. We assume that the data is the sum of the time
    series components.
  • Yt Trt Snt Clt
  • 2. If the data do not contain one of the
    components (e.g., cycle) the value for that
    missing component is zero. Suppose there is no
    cycle, then
  • Yt Trt Snt t
  • 3. The seasonal component is independent of
    trend, and thus magnitude of the seasonal swing
    is constant over time.
  • Multiplicative model
  • 1. We assume that the data is
  • the product of the various components.
  • Yt Trt Snt Clt ?t
  • 2. If trend, seasonal variation, or cycle is
    missing, then the value
  • is assumed to be 1.
  • Suppose there is no cycle, then
  • Yt Trt Snt t
  • 3. The seasonal factor of multiplicative model is
    a proportion (ratio) to the trends, and thus the
    magnitude of the seasonal swing increases or
    decreases according to the behaviour of trend.

17
VI. Case study Quarterly malaria
cases of a Township in Myanmar between 1984-1992
is shown in Table 1. Using the multiplicative
decomposition method, a) calculate the centered
moving average for the time series data.b) find
the equation to model the linear trend.c)
estimate the seasonal factors.d) calculate the
final forecast values over the estimation
period.e) discuss the model.
18
Objectives of modelling 1) to monitor the
malaria situation in the study area and forecast
with modelling 2) to detect seasonal
transmission patterns in the distribution of
malaria in the study area
19
Methods1. This is a
documentary study using time series data covering
1984 to 1992. 2. The dependent variable was the
incidence of malaria occurring during a given
time including both out-patient and in-patient
malaria cases.3. For a starting point, we
demonstrated a simple, two-variable regression
model using the independent variable, time
factor.4. For the centred moving average, we
computed a four-period moving centred average.5.
The data were processed using MINITAB release
11.12.
20
ResultsThe output for MINITAB program
illustrating seasonal indices and centred moving
average. Times series (multiplicative
decomposition method)Seasonal Indices Period
Index 1 1.18483 2 0.309150 3
0.738706 4 1.76732Accuracy of
ModelMAPE 494 MAD 234
MSD 101789
21
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23
Linear regression model (simple, two-variable
model) in MINITABThe regression equation isY
21 10.9 XPredictor Coef StDev
T P Constant 21.1
110.5 0.19 0.850 X
10.932 5.209 2.10 0.043S
324.7 R-Sq 11.5 R-Sq(adj) 8.9
Dependent variable quarterly malaria cases
Independent variable time
24
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25
Evaluating the modelBefore completing
the analysis, diagnostic tests taking account of
statistical pathology are to be investigated.
Graphing the actual values with the predicted
values closeness of the differences?
see Figure 1Graphing the residual Checked for
a normal distribution. T-test for slope, F test,
and Durbin-Watsin Are they greater than their
tabled values (alpha 0.05)?. Further details
are available in standard texts (see references).
An example, see Cho-Min-Naing et al (2000)
26
Discussion 1.Epidemic of
malaria What? 1.1 Periodical rapid and
great increase in malaria morbidity and perhaps
mortality, reaching levels above local average
endemicity.1.2 A rapid increase in malaria
morbidity and mortality in a given population
(independent of seasonal variations) which
clearly surpasses.1.3 The usual levels, or
the appearance of the infection in an area where
it was not known before.A sharp increase of the
incidence of malaria among a population in which
disease was unknown.
27
Points to ponder1. Among diverse
factors, the selection of independent variables
should be judiciously based on theoretical
considerations. 2. It is worth emphasizing that
the simple, two-variable regression model is
limited in information. 3. The preferred
approach is to perform regression model for more
than one independent Variable. That is,
multiple regression analysis It allows the
investigator to assess the separate effects of
several unconfounded independent variables on a
single dependent variable.
28
A cautionary noteFor real progress, the
mathematical modeller as well as the
epidemiologist must have mud on his boots.
Bradley,1982.
29
References1. Armitage P, Berry
G. Automatic selection procedures and
colinearity. InStatistical Methods in Medical
Research. 3rd ed. Blackwell Scientific
Publications, Oxford. 1994 321-323.2. Centred
for Health Economics, Chulalongkorn University,
Bangkok, Thailand. Lecture Notes on Econometrics.
(1995/96) (unpublished) 3. Doti JL, Adibi E.
Identifying and correcting econometric problems.
In Econometric Analysis An Application
Approach. Prentice-Hall, Inc, New Jersey. 1987
203-265.
30
References (cont)4. Foster
DP, Stine RA, Waterman RP. Summary regression
case. InBusiness Analysis Using Regression A
Case Book. Springer-Verlag New York, Inc. 1998
227.5. Gujarati DN. Test of specification
errors. In Basic Econometric. 3rd ed.
Mcgraw-Hill, Inc. Singapore. 1995461.6.
Kleinbaum DG, Kupper LL, Muller KE. Regression
diagnostics. In Applied Regression Analysis and
Other Multivariable Methods. 2nd ed. PWS-KENT
publishing Company. Boston. 1988 181-225.7.
Roll Back Malaria. Malaria Early Warning
Systems. WHO/CDS/RBM/2001.32. 2001
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