In this work, we present an application of a mathematical model structured in classes (see [1]) for the study of the influence of population ageing in the evolution of the number of students in elementary school and in secondary school in Portugal, from 1995/96 to 2014/15 (see [2]). Based on historical data, some scenarios of projection are presented, with the aim of quantifying the young student population and its relation with the structure of the population age for the next school years in Portugal (from 2016/2017 to 2020/2021), in the various study cycles. Furthermore, we make a comparative analysis between the projection results presented here and in references [3] and [4]. The dynamic of the model comprises two stages: the first one represents the flow of students that go from one school year to the next, as well as the flow of students that enter or leave the educational system in a certain cycle of studies. The second stage represents the flow of students that go to the next cycle of studies. The simulations were done using Matlab.
The Portuguese Educational System comprises pre-elementary, elementary, secondary and higher education. Elementary schooling corresponds to compulsory education, incorporating the applicable criteria that follow; it lasts nine years (from 1st to 9th grade), and incorporates students from 6 to 15 years of age. It is structured in three sequential cycles, being the first cycle of four years (1st, 2nd, 3rd, and 4th grades), the second one of two years (5th and 6th grades), and the third cycle of three years (7th, 8th, and 9th grades). Secondary school, which we designate 4th cycle, has three school years (from 10th to 12th grade), and it is organized in different forms, with mutually pervious courses, oriented either to further education or working life ( [
The objective of the present work is to give some projections of the impact of population ageing in the student population in Portugal, according to the structure described above for the next years. The tool used is a version of the model developed in [
In Section 2 we present the model used to project the variation of student population. In Section 3, first we make simulations of the model using the historical data, then we describe the evolution of students in primary education (from 1st to 9th grade), and in secondary education (from 10th to 12th grade), in Portugal, from 1995/16 to 2014/15. Then, we give projections for the next years (from 2015/2016 to 2020/2021). Due to a lack of official data we consider the year 2015/2016 in the projections. We make a comparative study with the official projections ( [
We use a simplified version of the model developed in [
X ( t ) = [ x 1 ( t ) , x 2 ( t ) , ⋯ , x s ( t ) ] T ,
where each element x i ( t ) is the student population in the i = 1 , ⋯ , s year of the study cycle.
The change of the student population, that is the dynamics, is considered in two stages, first we divide the student population of a cycle in approved and flunked. This is represented by two vectors:
A ( t ) = [ a 1 ( t ) , a 2 ( t ) , ⋯ , a s ( t ) ] T , R ( t ) = [ r 1 ( t ) , r 2 ( t ) , ⋯ , r s ( t ) ] T
in which the components a 1 ( t ) , a 2 ( t ) , ⋯ , a s ( t ) and r 1 ( t ) , r 2 ( t ) , ⋯ , r s ( t ) are respectively the number of approved and the number of flunked in each cycle years in the end of the academic year t.
The students who are approved in the last year of a cycle are those who finish the cycle, so they are considered in the second stage. If it is the last year of the last cycle the student ends this study cycles. The number of students approved in the next year t + 1 is given by the vector
Y ( t + 1 ) = R ( t ) + N A ( t ) or Y ( t + 1 ) = X ( t ) − A ( t ) + N A ( t ) ,
where
N = [ 0 0 0 ⋯ 0 , 1 0 0 ⋯ 0 , 0 1 0 ⋯ 0 , ⋯ , 0 0 0 ⋯ 1 0 ] T .
Thus,
N A ( t ) = [ 0 , a 1 ( t ) , ⋯ , a s − 1 ( t ) ] T .
The components y i ( t + 1 ) , i = 1 , ⋯ , s , of the vector Y ( t + 1 ) are the sum of flunked with the approved in the year t.
In the second stage we consider the recruiting of new students for the first year and the students who enter or leave for another reason, this includes those who return to the studies and the dropout students. Again we consider two vectors:
G ( t ) = [ g 1 ( t ) , g 2 ( t ) , ⋯ , g s ( t ) ] T ,
and
B ( t + 1 ) = [ b 1 ( t + 1 ) , b 2 ( t + 1 ) , ⋯ , b s ( t + 1 ) ] T ,
to represent, respectively, the students who leave the school in the year t and the students who enter the school in the year t + 1 . This second stage is given by the vector
W ( t + 1 ) = B ( t + 1 ) − G ( t ) .
We join these two stages and we obtain the equation for the student population in the year t + 1
X ( t + 1 ) = Y ( t + 1 ) + W ( t + 1 ) .
In order to make simulations of the model we need an algorithm to implement in a computer program. An appropriated algorithm is to compute the student population of a year t + 1 in terms of the population of the year t.
For this we consider the following matrices:
T = d i a g ( t 1 , t 2 , ⋯ , t s ) and D = d i a g ( d 1 , d 2 , ⋯ , s s ) ,
having for each year of the study cycle the estimated rates, respectively, of approved students and of students who leave the school, in the year t, and the matrix
E = d i a g ( e 1 , e 2 , ⋯ , e s ) ,
having the estimated rate of the new students in the next year t + 1 . So we can write the model by
X ( t + 1 ) = X ( t ) + ( I − T + N T + E − D ) X ( t ) .
The implementation of the model is done by the next algorithm, which gives us projections for a period of n years, starting in the year t.
Algorithm: Given n, let P ( 0 ) = X ( t ) , for some academic year t, then for j = 1 , ⋯ , n do
P ( j + 1 ) = P ( j ) + ( T m + N T m + E m − D m ) P ( j ) (1)
where T m , E m , D m and S m are diagonal matrices, whose elements are the means of students who are approved, join the school, finish their studies and leave the school, respectively, for each academic year during the period.
The historical data used in this section have, as the main source, the data base of the information system of the General Direction of Statistics of the Ministry of Education and Science in Portugal (DGEEC). The data obtained refer to the types of training offers for young people in continental Portugal since the academic year 1995/96 until the academic year of 2014/2015, and we have chosen a joint analysis of private and public schools data, in regular and artistic teaching in Continental Portugal ( [
First we present the evolution of the number of young students enrolled in basic and secondary schooling who have attended regular and artistic studies in continental Portugal from 1995/96 to 2014/2015, grouped by school year and level, regarding the number of students enrolled, approved and flunked, published in [
After that a projection of the number of students enrolled in continental Portugal for the next years (2015/16-2020/21) is done, and four projection scenarios are presented. Scenario 1 refers to projections presented by DGEE in [
We have observed that for each academic year, at the end of the last year of a cycle, the students approved go to the first year of the next cycle, which will be considered the entries in the next cycle. Besides that, for every study cycle and based on the historical data presented, it was possible to build a group of projections in various scenarios, for a period of 6 academic years: from 2015/2016 to 2020/2021.
Next we describe the methodology used to construct the four projection scenarios:
- Scenario 1 (green) refers to the projections presented by DGEE in [
Scenarios 2, 3 and 4 result from the application of the model described in the previous section, by applying the Algorithm (1) and they take into account the historical data (1995/96 - 2014/15) that refer to the rates of transition, retention, dropping and graduation in different school years for each study cycle.
- Scenario 2 (blue) considers the mean values in the whole evolution period, from 1995/96 a 2014/15.
- Scenario 3 (pink) considers the mean values in the last 10 years, from 2005/06 a 2014/15.
- Scenario 4 (red) considers the mean values in the last 5 years, from 2010/12 to 2014/15.
The projections are presented in graphs and tables. The graphs show the projection results for each academic year, by study year and total. Tables show only projection’s total values.
On the first curricular year of the first cycle the retention rate is 0%, which means that all students are approved and go to the 2nd year of the next academic year [
A decrease of students in all years can be seen. In 1995/96 503,049 students were enrolled, in 2000/01 they were 485,517, in 2005/06, 465,238, in 2010/11, 435,162 and in 2014/15, there were 391,870 students enrolled.
It can also be noticed that the number of students that go to the next year decreases a little, showing a steady tendency, and that the number of repeaters decreases slightly throughout the whole period from 1995/96 to 2014/15.
The four scenarios of projections reveal a general tendency of decrease in the number of students in all years. Furthermore, it can be predicted that this decrease will be a little sharper on 1st grade.
Years | 2015/16 | 2016/17 | 2017/18 | 2018/19 | 2019/20 | 2020/21 |
---|---|---|---|---|---|---|
Scenario 1 | 383,554 | 379,383 | 374,214 | 361,936 | 346,925 | 330,235 |
Scenario 2 | 390,366 | 386,966 | 385,453 | 382,293 | 378,754 | 375,183 |
Scenario 3 | 386,298 | 379,525 | 373,482 | 367,524 | 361,656 | 355,880 |
Scenario 4 | 383,531 | 374,249 | 365,058 | 355,793 | 346,729 | 337,892 |
The green scenario is the worst case with fewer 53,319 students in the end of the period, the blue is the best with fewer 15,183 students, the pink and red show fewer 30,418 and 45,639 fewer students, respectively.
For the 2nd cycle of basic school a general decrease in the numbers of enrolled students can also be seen, with emphasis in last year of the cycle.
In total we have observed that in 1995/96 285,944 students were enrolled, in 2000/01 they were 246,336 students, in 2005/06, 238,570 were enrolled, in 2010/11, there were 242,704 and in 2014/15, 215,937 students were enrolled.
The number of students who go to the next year of a cycle keeps more or less constant throughout the period. The number of repeaters has had an increase from 2011/12 on.
For the 2nd cycle of basic school it can also be predicted a generalized decrease in the number of students, although not as sharp as in the 1st cycle.
The red scenario is the worst case with fewer 22,107 students in the end of the period; the blue is the best with fewer 9053 students; the green and pink show fewer 16,551 and 16,119 students, respectively.
Regarding the numbers of students enrolled, a recovery that reverses the decreasing tendency can be seen since 2008/09.
In total we observe that in 1995/96 405,870 students were enrolled, in 2000/01, 357,900, in 2005/06, 342,865, in 2010/11, 343,034, and in 2014/15, 334,225.
Years | 2015/16 | 2016/17 | 2017/18 | 2018/19 | 2019/20 | 2020/21 |
---|---|---|---|---|---|---|
Scenario 1 | 216,660 | 213,201 | 207,439 | 205,639 | 202,944 | 200,109 |
Scenario 2 | 206,295 | 202,848 | 200,334 | 198,535 | 198,395 | 197,242 |
Scenario 3 | 208,331 | 205,016 | 202,212 | 198,561 | 195,333 | 192,212 |
Scenario 4 | 208,988 | 204,752 | 200,800 | 196,301 | 191,677 | 186,881 |
The number of students that go the next year and the number of repeaters follow the same tendency. These results are mainly due to the extension of compulsory education.
The projections for the 3rd cycle follow the tendency of previous cycles.
Years | 2015/16 | 2016/17 | 2017/18 | 2018/19 | 2019/20 | 2020/21 |
---|---|---|---|---|---|---|
Scenario 1 | 313,314 | 309,995 | 305,925 | 300,353 | 294,296 | 289,838 |
Scenario 2 | 319,796 | 308,122 | 295,187 | 286,206 | 279,526 | 276,689 |
Scenario 3 | 321,998 | 311,258 | 300,372 | 292,375 | 286,486 | 281,932 |
Scenario 4 | 323,253 | 314,825 | 305,241 | 297,002 | 290,222 | 284,153 |
The blue and pink scenarios are the worst cases with fewer 43,107 and 40,066 students, respectively, in the end of the period. The best is the green one, with fewer 23,476 students, the red scenario shows fewer 39,100 students.
Regarding the number of students enrolled, it can be noted that until 2008/09 there was a sharp decrease, and from then on, the numbers were relatively stabilized.
In total we observe that in 1995/96 364,157 students were enrolled, in 2000/01, 292,613, in 2005/06, 227,475, in 2010/11, 199,376, and in 2014/15, 198,901.
This sharp decrease regarding the number of students enrolled in secondary school is also due to the existence of other training offers, such as professional and vocational courses.
For the 4th cycle, secondary school, the projection is of a recovery in the number of students until 2017/18, and then a decrease until 20120/21, reversing the tendencies observed in the 1st and 2nd cycles of basic school.
Years | 2015/16 | 2016/17 | 2017/18 | 2018/19 | 2019/20 | 2020/21 |
---|---|---|---|---|---|---|
Scenario 1 | 203,374 | 204,505 | 205,790 | 203,546 | 201,029 | 198,473 |
Scenario 2 | 213,925 | 213,791 | 216,457 | 210,314 | 202,781 | 194,610 |
Scenario 3 | 204,584 | 201,941 | 199,923 | 192,868 | 186,484 | 179,995 |
Scenario 4 | 200,972 | 196,444 | 192,955 | 186,452 | 181,710 | 176,097 |
The red and pink scenarios are the worst cases with fewer 24,875 and 24,589 students, respectively, in the end of the period. The green is the best with fewer 4901 students; the blue shows fewer 19,315 students.
We consider here the relationship of the ageing and the decrease in the number of students, although it is expected that this is directly proportional, other factors as the economic situation of the country also have a strong contribution to such decrease.
The statistical data presented in this section, about the annual estimates on the resident population and their projections, were obtained from the National Institute of Statistics (INE) [
Regarding the students data, they are the ones from the previous section. Until the school year of 2014/15 they are real data and, from 2015/16 to 2020/21 they are projections.
In
The young resident population in 2008 for the ages of 5 - 9, 10 - 14 and 15 - 19 was respectively 558,154, 549,560 and 578,841. In the year of 2015 those numbers dropped to 494,705, 529,762 and 560,363. By the official projections [
The population ageing experienced in Portugal is summarized by the Dependency Rates showed in
Now we will make the comparisons between the numbers of enrolled students, studied in Section 3, and the numbers of resident population, studied above in this section.
For the enrolled student population we will consider only the green and blue scenarios according to Section 3, the respective data are summarized next.
The two scenarios project a decrease in the student population until 2021. This can be seen in details in
The drop in these numbers is consequence of demographic decrease in view of the ageing population as we will observe next.
The first comparison is between the student population and the total resident population. This is done in
We observe that in 2008 the total number of enrolled students was 11.77% of the resident population, in 2014 was 11.22% and the projection for 2021 is 10.04% for the green scenario and 10.28% for the blue one.
For the number of students in the 2nd and 4th cycles the percent ratio are practically constant in all the period with the value of 2% for the both scenarios, green and blue.
The situation is quite different for the 1st cycle, in 2008 was 4.43%, in 2014 was 3.84% and the projection for 2021 is 3.26% by the green scenario and 3.69% by
Years | Green scenario | Blue scenario | ||||||
---|---|---|---|---|---|---|---|---|
Cycle 1 | Cycle 2 | Cycle 3 | Cycle 4 | Cycle 1 | Cycle 2 | Cycle 3 | Cycle 4 | |
2015/16 | 383,554 | 216,660 | 313,314 | 203,374 | 390,366 | 206,295 | 319,796 | 213,925 |
2016/17 | 379,383 | 213,201 | 309,995 | 204,505 | 386,966 | 202,848 | 308,122 | 213,791 |
2017/18 | 374,214 | 207,439 | 305,925 | 205,790 | 385,453 | 200,334 | 295,187 | 216,457 |
2018/19 | 361,936 | 205,639 | 300,353 | 203,546 | 382,293 | 198,535 | 286,206 | 210,314 |
2019/20 | 346,925 | 202,944 | 294,296 | 201,029 | 378,754 | 198,395 | 279,526 | 202,781 |
2020/21 | 330,235 | 200,109 | 289,838 | 198,473 | 375,183 | 197,242 | 276,689 | 194,610 |
Total cycles | 2,176,247 | 1,245,992 | 1,813,721 | 1,216,717 | 2,299,015 | 1,203,649 | 1,765,526 | 1,251,878 |
Total scenarios | 6,452,677 | 6,520,068 |
the blue.
While for the 3rd cycle we have 3.05% in 2008, 3.3% in 2014 and projections of 2.85% and 2.73% for the green and blue scenarios, respectively.
It is very interesting to observe that the cycles behavior can indicate a kind of wave evolution. Probably more studies are necessary to corroborate this.
The usual age for the students of elementary and secondary studies in Portugal is between 6 and 17, so we consider this range in the next comparison.
In
We observe a small decrease in the enrollment rate over all the range. The numbers are 92.43% for 2008, 90.94% for 2014 and a projection of 90.79% for 2021.
Considering by cycles, we observe about 15% - 17% for the 2nd and 4th over all the period. For the 1st cycle we had 34.79% in 2008, 31.11% in 2014 and a projection of 32.63% for 2021. For the 3rd cycle, 24.01% in 2008, 26.74% and the projection for 2021 is 24.06%.
We observe that the enrollment does not depend on the age structure of the population. We consider that this small decrease is due to the economic situation of the country.
According to the projections, the greatest drop in the number of enrolled students in continental Portugal in the next years will occur in basic schooling, whose main impacts are already felt on the 1st, 2nd and 3rd cycles of studies. Despite the recent extension of compulsory studies to 18 years of age, secondary schooling also reveals a tendency of decrease in the number of students from 2017/18 on. Although the number of students enrolled in scientific and humanistic courses aiming higher education has increased in the last years, the total number of students in professional courses has decreased.
The main reason for this drop is the population ageing, which is directly related to the decrease in birth rates.
The projections presented in this article are an important working tool to educational, social and economic plans for the next years, especially in what concerns to implement measures in education, to increase the birth rate, to settle resident population and to develop repopulation policies, among others.
Rosa, C. and Pereira, E. (2017) Evolution of the Number of Students in Elementary and Secondary School in Portugal and Population Ageing. Open Journal of Social Sciences, 5, 112-127. https://doi.org/10.4236/jss.2017.57008