In this paper we analyse the growth in scientific results of natural sciences in terms of infinite dynamical system theory.
We use functional differential equations to model the evolution of science in its sociological aspect. Our model includes
the time-to-build of fundamental notions in science (time required to understand them). We show that the delay parameter describing
time required to learn and to apply past scientific results to new discoveries plays a crucial role in generating cyclic behaviour
via the Hopf bifurcation scenario. Our model extends the de Solla Price model by including death of results as well as by
incorporating the time-to-build notion. We also discuss the concepts of knowledge and its accumulation used in economic growth
(t) = −µx(t) + g(x(t − 1)) is considered with µ ≥ 0 and a smooth real function g satisfying g(0) = 0. It is shown that the dynamics generated by this simple-looking equation can be very rich. The dynamics is completely
understood only for a small class of nonlinearities. Open problems are formulated.
Authors:Ed Rinia, Thed. Van Leeuwen, Eppo Bruins, Hendrik Van Vuren, and Anthony Van Raan
As part of a larger project to investigate knowledge flows between fields of science, westudied the differences in speed of knowledge transfer within and across disciplines. The agedistribution of references in three selections of articles was analysed, including almost 800.000references in journal publications of the United Kingdom in 1992, 700.000 references inpublications of Germany in 1992, and more than 11 million references in the world total ofpublications in 1998.The rate of citing documented knowledge from other disciplines appears to differ sharplyamong disciplines. For most of the disciplines the same ratio's are found in the three data sets.Exceptions show interesting differences in the interdisciplinary nature of a field in a country. Wefind a general tendency of a citation delay in case of knowledge transfer between different fieldsof science: citations to work of the own discipline show less of a time lag than citations to work ina foreign discipline. Between disciplines typical differences in the speed of incorporatingknowledge from other disciplines are observed, which appear to be relatively independent of timeand place: for each discipline the same pattern is found in the three data sets. The disciplinespecific characteristics found in the speed of interdisciplinary knowledge transfer may be point ofdeparture for further investigations. Results may contribute to explanations of differences incitation rates of interdisciplinary research.
Based on the simulation study of the publication delay control process [Yu & al., 2005], transfer function models of delay control processes by adjusting the accepted contribution flux and the published
contribution flux are identified using system identification. According to Cybernetics, the feedback control system of the
publication delay is designed and control processes are simulated and analyzed when the average publication delay are regarded
as the controlled object. On the basis of the relation between the average publication delay and the deposited contribution
quantity, another control method is proposed that the deposited contribution quantity is regarded as the controlled object
and the simulation result proves that the method is an excellent means and can help editors expediently manage their journals
and control publication delays.
Based on the transform
function model of the observed citing process, the analytical expression of the
age distribution of citations is deduced, and it is theoretically proved that
the peak value of the citation distribution curve would fall and shift backward
along with increasing the average publication delay and the peak age has a
direct proportion relation with the pure delay and would be prolonged along
with increasing the delay or decreasing the aging rate. The influence of the
average publication delay on three ISI indicators impact factor, immediacy
index and cited half-life are studied; in one subject discipline, the bigger
the delay, the lower the three indicators of journals. Using the sensitivity
theory, sensitivity formulae of the three indicators to publication delay
parameters are deduced and it is found that responses of these indicators to
changes of publication delays are different according to different time
constant of the aging process; The faster the aging rate of a discipline
literature is, the worse the influence of publication delays on the indicators
of journals in the discipline.
Some new linear and nonlinear delay integral inequalities of G-B-B type are obtained which generalize some results of O. Akinyele
, P. Ch. Tsamatos and S. K. Ntouyas . Application examples are also given.
In this paper, the internal law of delay in the secondary literature publishing process is presented. The process is demonstrated
to abide by the partial differential equation of periodical literature publishing process. A definite solution of the publishing
delay process is derived. Accordingly, the expression of average publication delay indicator based on the particular solution
is deduced. Then the problem is studied that some information of primary literatures is missed in information retrieval, and
the relationship is established between the average delay indicator and the miss ratio of primary literatures in the index
periodicals or databases. Also it is proposed that the primary literature should be used as a supplemental tool in information
retrieval to guarantee the recall ratio.