hould have its own SFU and control blocks. The number of levels of the electron's orbit is possibly determined by the number of intranuclear SFU (protons and neutrons or other elementary particles), which result of action is the positioning of electron in an electronic orbit. For example, in a nail system the command would be its form and geometrical values. This command is entered into the control block one-time at the moment of nail manufacture when its values ​​(at the moment of its "birth") are measured and is not entered later any more. But when the command is already entered the system should execute this command, i.e. in this case the nail should keep its form and values ​​even if it is being hammered. In any control block type the command should be entered into at some point of time in one way or another. We cannot make just a nail "in general", but only the one with concrete form and preset values. Therefore, at the moment of its manufacture (ie one-time) we give it the "task" to be of such-and-such form and values. The command can vary if there is a channel of input of the command. For example, when turning on the air conditioner we can "give it a task" to hold air temperature at 20 В° С and thereafter change the command for 25 В° С. The nail does not have a channel of input of the order, while the air conditioner does. Consequently, the system with simple control block is the object which can react to certain external influence, and the result of its action is graduated and stable. The number of gradation is determined by the number SFU in the system and the accuracy is determined by quantum of action (The size, result) of single SFU and NF profundity/intensity. The result of action is accurate because the control block supervises it by means of NF. Type of control is based on mismatch/error plus error-rate control /. Control would only start after the occurrence of external influence or delivery of the result of action. Stability of the result of action is determined by NF profundity/intensity. System reaction is conditioned by type and number of its SFU. Simple control block has three channels of control: one external (command) and two internal (DPC and NF). It reacts to external influence through DPC (the "Х" informant) and to its own result of action of the system (the "Y" informant) through NF, whereas it controls executive elements of the system through efferent channels. Analogues of systems with simple control block are all objects of inanimate/inorganic world: gas clouds, crystals, various solid bodies, planets, planetary and stellar systems, etc. Biological analogues of systems with simple control block are protophytes and metaphytes, bacteria and all vegetative/autonomic systems of an organism, including, for example, external gas exchange system, blood circulation system, external gaseous metabolism system, digestion or immune systems. Even single-celled animal organisms of amoebas and infu...
