function [FIG,battANALOG,ATTIVA] = report_LL_ENG(rLL,m,NodoLoadLink,toolrif,... unitrif,datarif,contunit,Font_caption,Font_tools,siteID,DT,FIG,br,... colonna4,status,ATTIVA,battANALOG,conn,FileName) import mlreportgen.dom.* import mlreportgen.report.* % Make sure DOM is compilable makeDOMCompilable() if status(m,1) == 1 if strcmp(char(colonna4(m+1,1)),'Analog Array') == 1 % cella Analog Link if ATTIVA == 1 testo = Paragraph('GMUX not installed or inactive.'); ATTIVA = 0; end else if ATTIVA == 1 testo = Paragraph('Array not installed or inactive.'); ATTIVA = 0; end end add(DT,testo); elseif status(m,1) == 3 if ATTIVA == 1 testo = Paragraph(['Monitoring completed. Please log into the web-based platoform '... 'to access the complete dataset.']); ATTIVA = 0; add(DT,testo); end else if strcmp(char(colonna4(m+1,1)),'Analog Array') == 1 % cella Analog Link if battANALOG == 0 comando = ['select Date, Time, UnitName, ToolNameID, BatLevel, Temperature from RawDataView where Date >= ''' ... datarif ''' and UnitName = ''' char(unitrif) ''' and ToolNameID = '''... char(toolrif) ''' and NodeNum = 1 ']; curs = exec(conn,comando); curs = fetch(curs); BatTemp = curs.Data; [~,cc] = size(BatTemp); if cc ~= 1 %ci sono dati riferiti all'ultimo mese/periodo di interesse DataPlot = [BatTemp(:,1) BatTemp(:,2)]; % sistemo date, batteria e temperatura [rD,~] = size(DataPlot); T = [cell2mat(DataPlot(:,1)) repmat(' ', [rD,1]) cell2mat(DataPlot(:,2))]; Date = datenum(T); Batteria = cell2mat(BatTemp(:,5)); Temperatura = cell2mat(BatTemp(:,6)); % testo introduttivo testoB1 = Paragraph(['The following chart reports the battery level trend recorded during the reference time period. '... 'The correct functioning of the GMUX module is guaranteed for a minimum level of 12 V. The last '... 'available data is equal to ' num2str(Batteria(end,1)) ' V.']); testoB2 = Paragraph(['The GMUX module equips also a thermometer that allows the monitoring of the working '... 'temperature and the identification of eventual malfunctioning. The following chart reports temperature '... 'data recorded by the GMUX module.']); testoB1.HAlign = 'justify'; testoB2.HAlign = 'justify'; % grafico batteria figure(19) plot(Date,Batteria); hold on title('Battery level and GMUX temperature'); xlabel('Date [dd/mm/yyyy]'); ylabel('Level [V]'); ylim([floor(min(Batteria(:,1))) ceil(max(Batteria(:,1)))]); yyaxis right GMUX = plot(Date,Temperatura,':','LineWidth',1.1); ylim([floor(min(Temperatura(:,1))) ceil(max(Temperatura(:,1)))]); ylabel(['Temperature [' char(176) 'C]']); set(gca,'YColor','k'); str(1,1) = cellstr('Battery'); str(2,1) = cellstr('Temperature'); legend(str,'Location','northwest'); h = gca; h.XAxis.MinorTick = 'on'; datetick('x','dd/mm/yyyy','keepticks','keeplimits'); xtickangle(20); grid on grid minor xlim([Date(1)-1 Date(end)+1]); TempName = char(strcat('Report',siteID,'-', contunit,'-GMUX_ENG.png')); saveas(GMUX,TempName); ChartGMUX = Image(TempName); ChartGMUX.Style = {Height('8cm'),HAlign('center')}; if Batteria(end,1) >= 13 TempName = char(strcat('B_13.jpg')); elseif Batteria(end,1) >= 12 TempName = char(strcat('B_12.jpg')); elseif Batteria(end,1) >= 11 TempName = char(strcat('B_11.jpg')); else TempName = char(strcat('B_10.jpg')); end Batt = Image(TempName); Batt.Style = {Height('4cm'),HAlign('center')}; lot = Table({ChartGMUX, Batt}); lot.TableEntriesStyle = {HAlign('center'),VAlign('middle')}; lot.Style = {ResizeToFitContents(false),Width("100%")}; grps(1) = TableColSpecGroup; grps(1).Span = 2; specs(1) = TableColSpec; specs(1).Span = 1; specs(1).Style = {Width("80%")}; specs(2) = TableColSpec; specs(2).Span = 1; specs(2).Style = {Width("20%")}; grps(1).ColSpecs = specs; lot.ColSpecGroups = grps; lot_cap = Paragraph(['Fig. ' num2str(FIG) ' - Battery level and GMUX temperature recorded '... 'during the reference time period']); FIG = FIG+1; lot_cap.Style = {HAlign('center'),FontSize(Font_caption),Italic(1),Color('midnightblue')}; FIG = FIG+1; Chart_cap.Style = {HAlign('center'),FontSize(Font_caption),Italic(1),Color('midnightblue')}; Batt = Section(); sezBATT = Paragraph('GMUX - Battery level and temperature'); sezBATT.Style = {FontSize(Font_tools),Bold(1),Italic(1)}; Batt.Title = sezBATT; add(DT,sezBATT); add(DT,testoB1); add(DT,testoB2); add(DT,lot); add(DT,lot_cap); add(DT,br); close(figure(19)); battANALOG = 1; end end end sezLL = Heading3('Load Link'); sezLL.Style = {FontSize(Font_tools),Bold(1),Italic(1)}; LL = Section(); LL.Title = sezLL; add(DT,sezLL); for ld = 1:rLL(m,1) NodeNum = num2str(NodoLoadLink(ld,m)); comando = ['select EventDate, EventTime, load_value from ElabDataView where EventDate >= ''' ... datarif ''' and ToolNameID = ''' char(toolrif) ''' and UnitName = ''' char(unitrif) ... ''' and NodeNum = ''' NodeNum ''' ']; curs = exec(conn,comando); curs = fetch(curs); Dati = curs.Data; % Modifico il formato di data e ora [rD,rC] = size(Dati); if rC ~= 1 T = [cell2mat(Dati(:,1)) repmat(' ', [rD,1]) cell2mat(Dati(:,2))]; Date = datenum(T); % Data carico = cell2mat(Dati(:,3)); % carico cella var_carico = carico-carico(1); % variazione carico % grafico carico figure(5); load = plot(Date,var_carico); title(['Load variation - node ' NodeNum '']); xlabel('Date [dd/mm/yyyy]'); ylabel('Load variation [kN]'); if strcmp(char(colonna4(m+1,1)),'Analog Array') == 1 % cella Analog Link if max(var_carico) < 15 && min(var_carico) > -15 ylim([-15 15]); elseif max(var_carico) > 15 && min(var_carico) > -15 ylim([-15 inf+1]); elseif max(var_carico) < 15 && min(var_carico) < -15 ylim([-inf-1 15]); end else % cella RSN if max(var_carico) < 10 && min(var_carico) > -10 ylim([-10 10]); elseif max(var_carico) > 10 && min(var_carico) > -10 ylim([-10 inf+1]); elseif max(var_carico) < 20 && min(var_carico) < -10 ylim([-inf-1 10]); end end h = gca; h.XAxis.MinorTick = 'on'; datetick('x','dd/mm/yyyy','keepticks','keeplimits'); xtickangle(20); grid on grid minor hold off TempName = char(strcat('Report',siteID,'-', char(toolrif),'-CellaCarico', NodeNum, '_ENG.png')); saveas(load,TempName); ChartLL = Image(TempName); ChartLL.Style = {Height('7.3cm'),HAlign('center')}; ChartLL_cap = Paragraph(['Fig. ' num2str(FIG) ' - Load variation '... 'recorded by the load sensor ' NodeNum... ', during the reference time period']); FIG = FIG+1; ChartLL_cap.Style = {HAlign('center'),FontSize(Font_caption),Italic(1),Color('midnightblue')}; testo = Paragraph(['The following graph reports load variation data measured by load sensors'... 'composing the Analog Array (values in kN).']); testo2 = Paragraph(['During the reference time period, the node ' NodeNum ... ' recorded a maximum load variation of '... num2str(round(max(abs(var_carico)),2), '%0.2f') ' kN, while the maximum value referred '... 'to the absolute load amounts to ' num2str(round(max(carico),2), '%0.2f') ' kN.' ]); testo.HAlign = 'justify'; testo2.HAlign = 'justify'; if ld == 1 add(DT,testo); end add(DT,testo2); add(DT,ChartLL); add(DT,ChartLL_cap); if ld == rLL(m,1) add(DT,br); end close(figure(5)); % pulisco variabili da riutilizzare per catena successiva clear carico; clear var_carico; else if ATTIVA == 1 testo = Paragraph('No data available for the reference time period.'); ATTIVA = 0; add(DT,testo); add(DT,br); end end end end fileID = fopen(FileName,'a'); fmt = '%s \r'; text = 'report_LL_ENG function executed correctly'; fprintf(fileID,fmt,text); fclose(fileID); end