6533b7dbfe1ef96bd126ffb2

RESEARCH PRODUCT

Algorithms and Logic as Programming Primers

Pia NiemeläAntti ValmariSimo Ali-loytty

subject

effectiveness of educationHigher educationmedia_common.quotation_subjectPrimary educationopetusohjelmat (oppilaitokset)digital skills gap02 engineering and technologytietotekniikkaSyllabuscomputing in math syllabuscontinuous vs. discrete mathSoftware020204 information systemsComputingMilieux_COMPUTERSANDEDUCATION0202 electrical engineering electronic engineering information engineeringK-12 computer science educationmedia_commonPraxismatematiikkabusiness.industry05 social sciencestaidot050301 educationFlexibility (personality)National curriculum113 Computer and information sciencesData structureprofessional development of software professionalsammatillinen kehityscomputational vs. specificational thinkingbusiness0503 educationAlgorithm

description

To adapt all-immersive digitalization, the Finnish National Curriculum 2014 (FNC-2014) ‘digi-jumps’ by integrating programming into elementary education. However, applying the change to mathematics teachers’ everyday praxis is hindered by a too high-level specification. To elaborate FNC-2014 into more concrete learning targets, we review the computer science syllabi of countries that are well ahead, as well as the education recommendations set by computer science organizations, such as ACM and IEEE. The whole mathematics syllabus should be critically viewed in the light of these recommendations and feedback collected from software professionals and educators. The feedback reveals an imbalance between supply and demand, i.e., what is over-taught versus under-taught, from the point of the requirements of current working life. The surveyed software engineers criticize the unnecessary surplus of calculus and differential equations, i.e., continuous mathematics. In contrast, the emphasis should shift more towards algorithms and data structures, flexibility in handling multiple data representations, and logic: in short – discrete mathematics. The ground for discrete mathematics should be prepared early enough, started already from primary level and continued consistently throughout the secondary till tertiary education. This paper aims to contribute to the further refinement of the mathematics syllabus by proposing such a discrete mathematics subset that especially supports the needs of computer science education, the focus being on algorithms and data structures, and logic in particular. acceptedVersion Peer reviewed

https://doi.org/10.1007/978-3-030-21151-6_18