void show_p0_neuron_title( ) { String Label ; for(int i=0; i<19;i++) { if(NEURON_A[i].if_used == 1 ) { lcd.setCursor(i,0); Label = String(NEURON_A[i].Label) ; lcd.print(Label); // lcd.print(i); // Serial.print(NEURON_A[i].Label); } } //if_show_p0_neuron_title = 1 ; } void Simulated_potential_show_lcd( ) { if(Simulated_potential_show_lcd_t < millis()) { Simulated_potential_show_lcd_t = millis() + Simulated_potential_show_lcd_latency ; SPL(); lcd_menu(); //SPFT2(level,(( NEURON_A[0].Simulated_potential - NEURON_A[0].Reset_potential ) / ( NEURON_A[0].Firing_threshold - NEURON_A[0].Reset_potential )) * 10 ); //SPFT2(level,(( NEURON_A[1].Simulated_potential - NEURON_A[1].Reset_potential ) / ( NEURON_A[1].Firing_threshold - NEURON_A[1].Reset_potential )) * 10 ); //SPFT2(debug,NEURON_A[0].Capacitance); // SPFT2(level,NEURON_A[1].Simulated_potential); /* for(int i=0; i<19;i++) { if(NEURON_A[i].if_used == 1 ) { lcd.setCursor(i,2); byte level = (( NEURON_A[i].Simulated_potential - NEURON_A[i].Reset_potential ) / ( NEURON_A[i].Firing_threshold - NEURON_A[i].Reset_potential )) * 10 ; if(level >9) level = 0; Serial.print(i);SPFT2(level,level); lcd.print(level) ; } } lcd.setCursor(0,3); lcd.print("L") ;lcd.print(int(neuron_Resting_Potenial_t_test_result)) ; lcd.print(F(" ")); lcd.setCursor(5,3); lcd.print(round(analogRead(AnalogSensorLL_PIN)/10 * AnalogSensorLL_calibrate_ratio)); lcd.print(F(" ")); lcd.print(round(analogRead(AnalogSensorLC_PIN)/10 * AnalogSensorLC_calibrate_ratio)); lcd.print(F(" ")); lcd.print(round(analogRead(AnalogSensorRC_PIN)/10 * AnalogSensorRC_calibrate_ratio)); lcd.print(F(" ")); lcd.print(round(analogRead(AnalogSensorRR_PIN)/10 * AnalogSensorRR_calibrate_ratio)); lcd.print(F(" ")); lcd.print(NEURON_A_INDEX_NEXT); lcd.print(F(" ")); show_p0_neuron_title(); */ } }