Mathematics – Logic
Scientific paper
Nov 1994
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1994adspr..14..191g&link_type=abstract
Advances in Space Research, Volume 14, Issue 11, p. 191-197.
Mathematics
Logic
1
Scientific paper
Acquisition and analysis of sensory information are foremost for the control and continued operation of any complex system. The sensors and their attributes must be selected by understanding the biological and physical parameters which, first, can describe, and second, when linked to control systems, can modulate, the plant growth system. These parameters are not all understood, or known, and practical sensors may not even exist for their measurement.
A systematic analysis of the general plant system would: focus without prejudice on all the descriptive parameters, as well as, their interrelationships within the biophysical system; highlight the significance of each parameter; expose the areas of weakness and strength of current knowledge; expand the knowledge base; provide the platform for the development of operational models for real-time monitoring and control requirements; and support the longer term tactical and strategic planning needs.
Components of such a procedure of systematic analysis which is in development for intensive plant production systems within controlled environments will be discussed.
New Jersey Agricultural Experiment Station Publication No. D-03130-18-92.
Giacomelli G. A.
Ling P. P.
Ting K. C.
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