Kasutatud kirjandus ja viited

[1]Degarmo, E. P., Black, J. T., Kohser, R. A., Klamecki, B. E. Materials and processes in manufacturing. – New Jersy: John Wiley & Sons, 2003. – 1154 p.

[2]Pettai, E. Tootmise automatiseerimine. – Tallinn: Tallinna Tehnikaülikooli elektriajamite ja jõuelektroonika instituut, 2005. – 336 p.

[3]EESTI STANDARD, EVS-EN 61131-1:2003, Programmable controllers Part 1: General Information. – Eesti Standardikeskus, 2003. – 19 p.

[4]Berger, H. Automatisieren mit STEP 7 in AWL und SCL, Speicherprogrammierbare Steuerungen SIMTIC S7-300/400. – Erlangen: Publicis Corporate Publishing, 2004. – 529 p.

[5]Von Aspern, J. SPS Grundlagen, Aufbau, Programmierung (IEC 61131, S7), Simulation, Internet, Sicherheit. – Heidelberg: Hüthigh Verlag, 2009. – 276 p.

[6]Wellenreuther, G., Zastrow, D. Automatisierung mit SPS – Theorie und Praxis. – Wiesbaden: Vieweg + Teubner │ GWV Fachverlag, 2009. – 827 p.

[7]EESTI STANDARD, EVS-EN 61131-2:2004, Programmable controllers – Part 2: Equipment requirements and tests. – Eesti Standardikeskus, 2004. – 117 p.

[8]Bliesener, R., Ebel, F., Löffler, C., Plagemann, B., Regber, H., Terzi, E.v., Winter, A. Programmable logic controllers, Basic level TP301 – Textbook. – Festo Didactic GmbH & Co., 2002. – 214 p.

[9]Jones, C.T. STEP 7 in 7 Steps. – United States, 2006. – 464 p.

[10]Berger, H. Automating with SIMATIC, Controllers, Software, Programming, Data Communication, Operator Control and Process Monitoring. – Erlangen: Publicis Corporate Publishing, 2003. – 223 p.

[11]EESTI STANDARD, EVS-EN 61131-3:2003, Programmable controllers – Part 3: Programming languages. – Eesti Standardikeskus, 2003. – 224 p.

[12]John, K.H., Tiegelkamp, M. IEC 61131-3: programming industrial automation systems : concepts and programming languages, requirements for programming systems, aids to decision-making tools. – Berlin: Springer, 2001. – 376 p.

[13]Siemens. Training document for the company-wide automation solution, Totally Integrated Automation (T I A), MODULE B2, Analog value processing. – Siemens A&D SCE, 2002. – 14 p.

[14]Siemens. Training Units and Addressing. – Siemesn AG, 2004 – 11 p.

[15]EESTI STANDARD, EVS-EN 61499-1:2005, Function blocks Part 1: Architecture. – Eesti Standardikeskus, 2005. – 116 p.

[16]Siemens. SIMATIC, Function Block Diagram (FBD) for S7-300 and S7-400 Programming, Reference Manual. – Nuernberg: Siemens AG, Bereich Automation and Drives, 2004. – 206 p.

[17]Siemens. SIMATIC, Statement List (STL) for S7-300 and S7-400 Programming, Reference Manual. – Nuernberg: Siemens AG, Bereich Automation and Drives, 2004. – 254 p.

[18]Bischoff, H., Hofmann, D., v. Terzi, E. Process Control System, Control of temperature, flow and filling level, Workbook. – Festo Didactic GmbH & Co., 1997. – 242 p.

[19]Shaw, J. A. The PID Control Algorithm, How it works, how to tune it, and how to use it. – 2003 – 62 p.

[20]SIEMENS www.siemens.com

[21]Lehtla, T. Elektriajamid. Tallinn:. Tallinn University of Technology, Department of Electrical Drives and Power Electronics., 2007. lk pp 190.

[22]Lahtmets, R. Elektrotehnika II,Vahelduvvool. Tartu: Trükikoda Paar, 2002.

[23]Vodovozov, V, Vinnikov, D ja Jansikene, R. Elektriajamite elektroonsed süsteemid. Tallinn: Tallinn University of Technology, Department of Electrical Drives and Power Electronics, 2008. lk pp 236.

[24]Agrawal, K.C. Industrial Power Engineering and Applications Handbook. Delhi: Butterworth-Heinemann, 2001. lk pp 973.

[25]Lehtla, T. Jõuelektroonika ja Elektriajamid. Tallinn: Tallinn University of Technology, Department of Electrical Drives and Power Electronics, 2003. lk pp 104.

[26]Brosch, P, F. Frequenzumrichter. Prinzip, Aufbau, Einsatz. Augsburg: Verlag Moderne Industrie, 2000. lk pp 83.

[27]Barnes, M. Variable Speed Drives and Power Electronics. London: IDC Technologies, 2003. lk pp 286.

[28]Lehtla, T. Sujuvkäivitid ja Sagedusmuundurid. . 2003: Tallinn University of Technology,Department of Electrical Drives and Power Electronics, Tallinn .

[29]Softstarter Handbook. Västerås: ABB Automation Technology Products AB, 2004. lk pp 94.

[30]Croser, P ja F., Ebel. Pneumatics Basic Level. Denkendorf: Festo Didactic GmbH & Co, 2002.

[31]Merkel, D, Schrader, B ja Thomes, M. Hydraulics Basic Level. Denkendorf: Festo Didactic GmbH & Co, 2003.

[32]Kreith, F. Mechanical Engineerig Handbook. s.l.: USA: CRC Press, 1999. lk pp 115.

[33]Naadel, R. Automaatjuhtimise Alused. Magistritöö. [toim.] Elektriajamite ja jõuleketroonika instituut. Tallinn: Tallinna Tehnikaülikoo, 2006. lk pp 140.

[34]Morriss, S. Brian. Automated Manufacturing Systems: Actuators, Controls, Sensors and Robotics. McGraw-Hill: s.n., 1994.

[35]Bishop R, H. The Mechatronics Handbook. s.l.:CRC Press, 2002. lk pp 1229.

[36]Vodovozov, V ja Jansikene, R. Electronic Engineering. –.. Tallinn: Tallinn University ofTechnology, Department of Electrical Drives and Power Electronics., 2007. lk pp 148.

[37]Lehtla, T. Robotitehnika. s.l.: Tallinn University of Technology, Department of Electrical Drives and Power Electronics, Tallinn. lk pp 104.

[38]Direct Torque Control. Helsinki: ABB Industry Oy. lk pp 31.

[39]Garbrecht, F.W. Anwendungsbezogene Auswahl von Elektromotoren. lk pp 239.

[40]Bird, J. Electrical Circuit Theory and Technology. London: s.n., 2003. lk pp 984.

[41]Ashfal, C,R. Robots and Manufacturing Automation. Canada: John Wiley & Sons Inc, 1992. lk pp 485.

[42]Norberto Pires, J., Loureiro, A. ja Bölmsjo, G. Welding Robots. Technology, System Issues and Applications. London: Springer- Verlag, 2006. lk pp 180.

[43]Uulma, Rein. Hüdraulika alused. Tallinn: s.n., 2001.[44]KUHNKE THN. Solenoids www.kuhnke.de

[45]Ash, G. Les capteurs en instrumentation industrielle. Bordas, Parism 1991.

[46]Levshina, E.S., P.V. Novitskij. Elektricheskie izmerenia neelektricheskih velichin. L, Energoatomizdat, 1983.

[47]Evtiheev, N. N. Izmerenie elektricheskih velichin. M., Energoatomizdat, 1990.

[48]Polistuk, E.S. Elektricheskie izmerenia elektricheskih i neelektricheskih velichin. Kiev, Vista shkola, 1984.

[49]Nubert, G. Izmeritelnie preobrazuvateli neelektricheskih velichin. L., Energia, 1970.

[50]Turichin, A.M. Elektricheskie izmerenia neelektricheskih velichin. M. – L., energia, 1966.

[51]Trendafilov, G. Izmervane na neelektricheski velichini. Rykowodstwo za laboratorni uprazhnenia. Gabrovo, Universitetsko izdatelstvo “Vasil Aprilov”, 2005.

[52]Fraden, J. Handbook of modern sensors: Physics, designs and application. Spriner-Verlag New Yorc, Inc., New York, 2004.

[53]Murthy, D.V.S. Transducers and Instrumentation. Prentice Hall of India Pvt. Ltd., New Delhi, 2001.

[54]Nenov, T., S.Yordanov. CERAMIC SENSORS: Technology and Applications. TECHNOMIC Publ. Co., Inc.Lancaster-Basel, 1996.

[55]David S. Nyce. Linear Position Sensors. Theory and Applications. A John Wiley&Sons, Inc., Publ., New Jersey, 2004.

[56]J.R. Brauer. Magnetic Actuators and Sensors. A John Wiley&Sons, Inc., Publ. New Jersey, 2006.

[57]W. Nawrocki. Measurement Systems and Sensors. Artech House, Inc., Boston-London, 2005.

[58]Modern Sensors Handbook. Edited by P.Ripka and A.Tipek. ISTE Ltd, London, 2007.

[59]Sensor Technology Handbook. Ed. J.S.Wilson. Newnes, Amsterdam, 2005.

[60]S. Solomon. Sensors and Control Systems in Manufacturing, McGrow-Hill Inc., New York, 2010.

[61]S. Solomon. Sensors Handbook. McGrow-Hill Inc., New York, 2010.

[62]Measurement, Instrumentation, and Sensors. Handbook. Ed. J.G.Webster. CRC Press LLC, Boca Rator, FL, 1999.

[63]Zvezditsa Nenova, Stefan Ivanov, Toshko Nenov Andurid tööstusautomaatikas (Käsikiri) TTU 2011

[64]Aldeniz Rashidov, Stanimir Jordanov TÖÖSTUSLIKUD VÕRGUD JA LIIDESED AUTOMATISEERIMIS-SÜSTEEMIS (Käsikiri) TTU 2011

[65]NetIP-SEC http://www.netip-sec.com.br/?tag=ccsp

[1]Degarmo, E. P., Black, J. T., Kohser, R. A., Klamecki, B. E. Materials and processes in manufacturing. – New Jersy: John Wiley & Sons, 2003. – 1154 p.

[2]Pettai, E. Tootmise automatiseerimine. – Tallinn: Tallinna Tehnikaülikooli elektriajamite ja jõuelektroonika instituut, 2005. – 336 p.

[3]EESTI STANDARD, EVS-EN 61131-1:2003, Programmable controllers Part 1: General Information. – Eesti Standardikeskus, 2003. – 19 p.

[4]Berger, H. Automatisieren mit STEP 7 in AWL und SCL, Speicherprogrammierbare Steuerungen SIMTIC S7-300/400. – Erlangen: Publicis Corporate Publishing, 2004. – 529 p.

[5]Von Aspern, J. SPS Grundlagen, Aufbau, Programmierung (IEC 61131, S7), Simulation, Internet, Sicherheit. – Heidelberg: Hüthigh Verlag, 2009. – 276 p.

[6]Wellenreuther, G., Zastrow, D. Automatisierung mit SPS – Theorie und Praxis. – Wiesbaden: Vieweg + Teubner │ GWV Fachverlag, 2009. – 827 p.

[7]EESTI STANDARD, EVS-EN 61131-2:2004, Programmable controllers – Part 2: Equipment requirements and tests. – Eesti Standardikeskus, 2004. – 117 p.

[8]Bliesener, R., Ebel, F., Löffler, C., Plagemann, B., Regber, H., Terzi, E.v., Winter, A. Programmable logic controllers, Basic level TP301 – Textbook. – Festo Didactic GmbH & Co., 2002. – 214 p.

[9]Jones, C.T. STEP 7 in 7 Steps. – United States, 2006. – 464 p.

[10]Berger, H. Automating with SIMATIC, Controllers, Software, Programming, Data Communication, Operator Control and Process Monitoring. – Erlangen: Publicis Corporate Publishing, 2003. – 223 p.

[11]EESTI STANDARD, EVS-EN 61131-3:2003, Programmable controllers – Part 3: Programming languages. – Eesti Standardikeskus, 2003. – 224 p.

[12]John, K.H., Tiegelkamp, M. IEC 61131-3: programming industrial automation systems : concepts and programming languages, requirements for programming systems, aids to decision-making tools. – Berlin: Springer, 2001. – 376 p.

[13]Siemens. Training document for the company-wide automation solution, Totally Integrated Automation (T I A), MODULE B2, Analog value processing. – Siemens A&D SCE, 2002. – 14 p.

[14]Siemens. Training Units and Addressing. – Siemesn AG, 2004 – 11 p.

[15]EESTI STANDARD, EVS-EN 61499-1:2005, Function blocks Part 1: Architecture. – Eesti Standardikeskus, 2005. – 116 p.

[16]Siemens. SIMATIC, Function Block Diagram (FBD) for S7-300 and S7-400 Programming, Reference Manual. – Nuernberg: Siemens AG, Bereich Automation and Drives, 2004. – 206 p.

[17]Siemens. SIMATIC, Statement List (STL) for S7-300 and S7-400 Programming, Reference Manual. – Nuernberg: Siemens AG, Bereich Automation and Drives, 2004. – 254 p.

[18]Bischoff, H., Hofmann, D., v. Terzi, E. Process Control System, Control of temperature, flow and filling level, Workbook. – Festo Didactic GmbH & Co., 1997. – 242 p.

[19]Shaw, J. A. The PID Control Algorithm, How it works, how to tune it, and how to use it. – 2003 – 62 p.

[20]SIEMENS www.siemens.com

[21]Lehtla, T. Elektriajamid. Tallinn:. Tallinn University of Technology, Department of Electrical Drives and Power Electronics., 2007. lk pp 190.

[22]Lahtmets, R. Elektrotehnika II,Vahelduvvool. Tartu: Trükikoda Paar, 2002.

[23]Vodovozov, V, Vinnikov, D ja Jansikene, R. Elektriajamite elektroonsed süsteemid. Tallinn: Tallinn University of Technology, Department of Electrical Drives and Power Electronics, 2008. lk pp 236.

[24]Agrawal, K.C. Industrial Power Engineering and Applications Handbook. Delhi: Butterworth-Heinemann, 2001. lk pp 973.

[25]Lehtla, T. Jõuelektroonika ja Elektriajamid. Tallinn: Tallinn University of Technology, Department of Electrical Drives and Power Electronics, 2003. lk pp 104.

[26]Brosch, P, F. Frequenzumrichter. Prinzip, Aufbau, Einsatz. Augsburg: Verlag Moderne Industrie, 2000. lk pp 83.

[27]Barnes, M. Variable Speed Drives and Power Electronics. London: IDC Technologies, 2003. lk pp 286.

[28]Lehtla, T. Sujuvkäivitid ja Sagedusmuundurid. . 2003: Tallinn University of Technology,Department of Electrical Drives and Power Electronics, Tallinn .

[29]Softstarter Handbook. Västerås: ABB Automation Technology Products AB, 2004. lk pp 94.

[30]Croser, P ja F., Ebel. Pneumatics Basic Level. Denkendorf: Festo Didactic GmbH & Co, 2002.

[31]Merkel, D, Schrader, B ja Thomes, M. Hydraulics Basic Level. Denkendorf: Festo Didactic GmbH & Co, 2003.

[32]Kreith, F. Mechanical Engineerig Handbook. s.l.: USA: CRC Press, 1999. lk pp 115.

[33]Naadel, R. Automaatjuhtimise Alused. Magistritöö. [toim.] Elektriajamite ja jõuleketroonika instituut. Tallinn: Tallinna Tehnikaülikoo, 2006. lk pp 140.

[34]Morriss, S. Brian. Automated Manufacturing Systems: Actuators, Controls, Sensors and Robotics. McGraw-Hill: s.n., 1994.

[35]Bishop R, H. The Mechatronics Handbook. s.l.:CRC Press, 2002. lk pp 1229.

[36]Vodovozov, V ja Jansikene, R. Electronic Engineering. –.. Tallinn: Tallinn University ofTechnology, Department of Electrical Drives and Power Electronics., 2007. lk pp 148.

[37]Lehtla, T. Robotitehnika. s.l.: Tallinn University of Technology, Department of Electrical Drives and Power Electronics, Tallinn. lk pp 104.

[38]Direct Torque Control. Helsinki: ABB Industry Oy. lk pp 31.

[39]Garbrecht, F.W. Anwendungsbezogene Auswahl von Elektromotoren. lk pp 239.

[40]Bird, J. Electrical Circuit Theory and Technology. London: s.n., 2003. lk pp 984.

[41]Ashfal, C,R. Robots and Manufacturing Automation. Canada: John Wiley & Sons Inc, 1992. lk pp 485.

[42]Norberto Pires, J., Loureiro, A. ja Bölmsjo, G. Welding Robots. Technology, System Issues and Applications. London: Springer- Verlag, 2006. lk pp 180.

[43]Uulma, Rein. Hüdraulika alused. Tallinn: s.n., 2001.[44]KUHNKE THN. Solenoids www.kuhnke.de

[45]Ash, G. Les capteurs en instrumentation industrielle. Bordas, Parism 1991.

[46]Levshina, E.S., P.V. Novitskij. Elektricheskie izmerenia neelektricheskih velichin. L, Energoatomizdat, 1983.

[47]Evtiheev, N. N. Izmerenie elektricheskih velichin. M., Energoatomizdat, 1990.

[48]Polistuk, E.S. Elektricheskie izmerenia elektricheskih i neelektricheskih velichin. Kiev, Vista shkola, 1984.

[49]Nubert, G. Izmeritelnie preobrazuvateli neelektricheskih velichin. L., Energia, 1970.

[50]Turichin, A.M. Elektricheskie izmerenia neelektricheskih velichin. M. – L., energia, 1966.

[51]Trendafilov, G. Izmervane na neelektricheski velichini. Rykowodstwo za laboratorni uprazhnenia. Gabrovo, Universitetsko izdatelstvo “Vasil Aprilov”, 2005.

[52]Fraden, J. Handbook of modern sensors: Physics, designs and application. Spriner-Verlag New Yorc, Inc., New York, 2004.

[53]Murthy, D.V.S. Transducers and Instrumentation. Prentice Hall of India Pvt. Ltd., New Delhi, 2001.

[54]Nenov, T., S.Yordanov. CERAMIC SENSORS: Technology and Applications. TECHNOMIC Publ. Co., Inc.Lancaster-Basel, 1996.

[55]David S. Nyce. Linear Position Sensors. Theory and Applications. A John Wiley&Sons, Inc., Publ., New Jersey, 2004.

[56]J.R. Brauer. Magnetic Actuators and Sensors. A John Wiley&Sons, Inc., Publ. New Jersey, 2006.

[57]W. Nawrocki. Measurement Systems and Sensors. Artech House, Inc., Boston-London, 2005.

[58]Modern Sensors Handbook. Edited by P.Ripka and A.Tipek. ISTE Ltd, London, 2007.

[59]Sensor Technology Handbook. Ed. J.S.Wilson. Newnes, Amsterdam, 2005.

[60]S. Solomon. Sensors and Control Systems in Manufacturing, McGrow-Hill Inc., New York, 2010.

[61]S. Solomon. Sensors Handbook. McGrow-Hill Inc., New York, 2010.

[62]Measurement, Instrumentation, and Sensors. Handbook. Ed. J.G.Webster. CRC Press LLC, Boca Rator, FL, 1999.

[63]Zvezditsa Nenova, Stefan Ivanov, Toshko Nenov Andurid tööstusautomaatikas (Käsikiri) TTU 2011

[64]Aldeniz Rashidov, Stanimir Jordanov TÖÖSTUSLIKUD VÕRGUD JA LIIDESED AUTOMATISEERIMIS-SÜSTEEMIS (Käsikiri) TTU 2011

[65]NetIP-SEC juhend http://www.netip-sec.com.br/?tag=ccsp

[66]SCALANCE XB008 – Mittehallatav tööstuslik Ethernet switch (kommutaatori) 10/100 Mbit/s juhend. https://cache.industry.siemens.com/dl/files/806/32983806/att_1092422/v1/BA_SCALANCE-XB-000_76.pdf

[67]IE SCALANCE Switch XC208 – Hallatav Ethernet switch (kommutaatori) juhend. https://cache.industry.siemens.com/dl/files/376/109744376/att_907659/v1/PH_SCALANCE-X-200_76.pdf

[68]IE SCALANCE S615 – LAN-ruuteri juhend. https://cache.industry.siemens.com/dl/files/909/109475909/att_841005/v1/BA_SCALANCE-S610_76.pdf

[69]SIMATIC ET 200SP CPU 1512SP F-1 PN Safety – PLC kontrolleri juhend. https://cache.industry.siemens.com/dl/files/013/90157013/att_83463/v1/et200sp_cpu1512sp_1_pn_manual_en-US_en-US.pdf

[70]SIMATIC MTP700 Unified Comfort Panel – HMI paneel juhend. http://simatic%20mtp700%20unified%20comfort%20panel/

[71]ET 200eco PN, IO-Link ja DI moodulid – erinevad sisend/väljund moodulite juhendid. https://cache.industry.siemens.com/dl/files/018/29999018/att_892386/v1/et200eco_pn_operating_instructions_en-US_en-US.pdf

[72]SIMATIC DP, ET 200AL ja ET 200ECO PN – erinevad IO moodulid IP67 kaitseastmega juhendid. https://cache.industry.siemens.com/dl/files/597/109759597/att_962249/v1/et200eco_pn_f_di_8_f_dq_3_manual_en-US_en-US.pdf

[73]SIMATIC IOT2050 – IoT protsessor – Tarkvara ja häälestuse juhend. https://cache.industry.siemens.com/dl/files/016/109779016/att_1018122/v2/iot2050_operating_instructions_en_en-US.pdf

[74]SIRIUS Compact load feeder ja CONTACTOR – voolumonitooringu ja kontaktorite kasutamise juhend. https://www.siemens.com/global/en/products/automation/industrial-controls/sirius/sirius-control.html

[75]TIA Portal tarkvara juhend https://cache.industry.siemens.com/dl/files/671/109798671/att_1071920/v1/STEP_7_WinCC_V17_enUS_en-US.pdf

[76] TLS ja SSL turvalisuse juhend https://tools.ietf.org/html/rfc5246

[77] Netscape SSL protokolli kirjeldus https://developer.mozilla.org/en-US/docs/Glossary/SSL

[78]Cisco VPN Overview https://www.cisco.com/c/en/us/products/security/vpn-endpoint-security-clients/what-is-vpn.html

[79]Microsoft VPN Solutions https://learn.microsoft.com/en-us/windows/security/operating-system-security/network-security/vpn/vpn-connection-type

[80]OpenVPN https://openvpn.net/

[81]SSL VPN Explained https://community.jisc.ac.uk/library/advisory-services/ssl-vpn-overview-and-architecture

[82]Eesti infoturbestandard https://eits.ria.ee/

[83]NIST juhend IPsec turvalisusele https://csrc.nist.gov/publications/detail/sp/800-77/final

[84]NIST juhend VPN turvalisusele https://nvlpubs.nist.gov/nistpubs/SpecialPublications/NIST.SP.800-77r1.pdf

[85]VPN tehnoloogiate ülevaade https://wiki.itcollege.ee/index.php/Virtuaalsed_privaatv%C3%B5rgud

[86]ISO/IEC 27001 https://instant27001.com/?msclkid=f5ca3c81f8e119915aa05a3d922f6872&utm_source=bing&utm_medium=cpc&utm_campaign=1%20-%20EN%20-%20Search%20-%20Instant%2027001%20(tCPA)&utm_term=iso%2027001%20isms&utm_content=Instant%2027001

[87] NIST (National Institute of Standards and Technology) https://www.nist.gov/

[88]Tööstus IT https://eits.ria.ee/et/versioon/2023/eits-poohidokumendid/etalonturbe-kataloog/ind-toeoestuse-it/ind1-kaeidu-ja-protsessijuhtimissuesteemid

[89]Cisco Firewalls: Cisco pakub põhjalikku dokumentatsiooni ja juhendeid tulemüüride kohta, sealhulgas konfiguratsioon ja haldamine. https://www.cisco.com/c/en/us/products/security/firewalls/index.html

[90]Fortinet Firewalls Fortinet pakub laialdast informatsiooni oma FortiGate tulemüüride kohta, mis hõlmab parimaid praktikaid ja tehnilisi üksikasju. https://www.fortinet.com/products/next-generation-firewall

[91]Palo Alto Networks Firewall : Palo Alto Networks’i NGFW-d (Next-Generation Firewalls) on hästi dokumenteeritud, pakkudes juhendeid ja valdkonnapõhiseid lahendusi. https://www.paloaltonetworks.com/products/firewalls

[92]Siemens Industrial Firewalls: Siemens pakub põhjalikku teavet oma tööstuslike tulemüüride ja võrgu turvalisuse lahenduste kohta. https://www.siemens.com/global/en.html

[93]Schneider Electric Industrial Firewalls : Schneider Electric pakub lahendusi ja juhendeid tööstuslike võrgu turvalisuse kohta, sealhulgas tulemüüride seadistamine. https://www.se.com/ww/en/product-range/222223431-cyber-security/

[94]IEEE Xplore Firewall Research: IEEE Xplore on hea allikas teadusartiklite ja tehniliste dokumentide jaoks, mis käsitlevad tulemüüre ja võrgu turvalisust. https://ieeexplore.ieee.org/document/8478973

[95]ResearchGate Firewall Studies: ResearchGate pakub juurdepääsu paljudele teadusartiklitele, sealhulgas uuringutele tulemüüride ja võrgu turvalisuse kohta. https://www.researchgate.net/search?q=firewall

[96]Network Security Bible by Eric Cole: See raamat pakub põhjalikku ülevaadet võrgu turvalisusest, sealhulgas tulemüüride konfiguratsioon ja haldamine. https://www.amazon.com/Network-Security-Bible-Eric-Cole/dp/0470502495

[97]NIST Special Publication 800-41: USA Riiklik Standardite ja Tehnoloogia Instituut (NIST) pakub juhiseid tulemüüride konfigureerimise ja haldamise kohta. https://csrc.nist.gov/publications/detail/sp/800-41/rev-1/final

[98]Krebs on Security: Brian Krebs kirjutab laialdaselt küberjulgeolekust, sealhulgas tulemüüride ja muude turvatehnoloogiate kohta. https://krebsonsecurity.com/

[99]Dark Reading: Dark Reading on küberjulgeoleku uudisteportaal, mis katab laialdaselt tulemüüride ja teiste turvameetmete teemasid. https://www.darkreading.com/

 [100]VLAN kasutamine: https://kuutorvaja.eenet.ee/wiki/VLAN_kasutamine#OpenBSD_kasutamine_mode_trunk_re.C5.BEiimis

 [101]Cisco VLAN Technologies: Cisco VLAN Fundamentals https://www.cisco.com/c/en/us/td/docs/switches/datacenter/sw/5_x/nx-os/layer2/configuration/guide/Cisco_Nexus_7000_Series_NX-OS_Layer_2_Switching_Configuration_Guide_Release_5-x_chapter4.pdf

 [102]IEEE 802.1Q Standard: IEEE 802.1Q Standard https://standards.ieee.org/standard/802_1Q-2018.html

 [103]VMware VLAN Configuration: VMware VLAN Overview https://docs.vmware.com/en/VMware-vSphere/8.0/vsphere-networking/GUID-7225A28C-DAAB-4E90-AE8C-795A755FBE27.html

 [104]Microsoft Visio: Võimas tööriist, mis võimaldab luua üksikasjalikke võrgudiagramme ja topoloogia kaarte. https://www.microsoft.com/en-us/microsoft-365/visio/flowchart-software

 [105]Lucidchart: Veebipõhine diagrammitööriist, mis võimaldab koostööd ja jagamist reaalajas. https://www.lucidchart.com/pages

 [106]Draw.io: Tasuta ja avatud lähtekoodiga diagrammitööriist, mis pakub laia valikut funktsioone ja šabloone võrgudiagrammide loomiseks. https://www.drawio.com/

[107]Wiresharki: Wireshark on tasuta ja avatud lähtekoodiga võrguanalüüsitarkvara, mis võimaldab jälgida ja analüüsida võrgu liiklust. https://www.wireshark.org/

[108]Wireshark Documentation: Wireshark Documentation: https://www.wireshark.org/docs/)

[109]Wireshark User’s Guide: Wireshark User’s Guide PDF: https://www.wireshark.org/docs/wsug_html_chunked/

[110]Wireshark Wiki: Wireshark Wiki: https://wiki.wireshark.org/

[111]Networks for building and industry automation, R. Rutkauskas, V.Macerauskas; Kaunas University of Technology; 2004

[112]Kagermann, H., Wahlster, W., & Helbig, J. (2013). Recommendations for implementing the strategic initiative INDUSTRIE 4.0. Acatech – National Academy of Science and Engineering.

[113]Rüssmann, M., Lorenz, M., Gerbert, P., Waldner, M., Justus, J., Engel, P., & Harnisch, M. (2015). Industry 4.0: The Future of Productivity and Growth in Manufacturing Industries. Boston Consulting Group.

[114]Zhou, K., Liu, T., & Zhou, L. (2015). Industry 4.0: Towards future industrial opportunities and challenges. Fuzzy Systems and Knowledge Discovery (FSKD), 12th International Conference on, IEEE.

[115]Ahmed, M., & Riaz, M. (2020). A Comprehensive Study on Cybersecurity and Industry 4.0: Challenges and Opportunities. Computers & Security, 97, 101999

[116]Lee, J., Bagheri, B., & Kao, H.-A. (2015). A Cyber-Physical Systems architecture for Industry 4.0-based manufacturing systems. Manufacturing Letters, 3, 18-23.

    [117]Lu, Y., & Xu, X. (2019). Resource virtualization and service selection in cloud manufacturing: From static to dynamic environments. Robotics and Computer-Integrated Manufacturing, 57, 92-103.

      [118]Brettel, M., Friederichsen, N., Keller, M., & Rosenberg, M. (2014). How Virtualization, Decentralization and Network Building Change the Manufacturing Landscape: An Industry 4.0 Perspective. International Journal of Mechanical, Aerospace, Industrial, Mechatronic and Manufacturing Engineering, 8(1), 37-44.

        [119]Choi, T.-M., & Lambert, J. H. (2017). Advances in risk analysis with big data. Risk Analysis, 37(8), 1435-1442.

          [120]Civerchia, F., Bocchino, S., Salvadori, C., Rossi, E., Maggiani, L., & Petracca, M. (2017). Industrial Internet of Things monitoring solution for advanced predictive maintenance applications. Journal of Industrial Information Integration, 7, 4-12.

          [121]Mohammadi, M., Al-Fuqaha, A., Sorour, S., & Guizani, M. (2018). Deep learning for IoT big data and streaming analytics: A survey. IEEE Communications Surveys & Tutorials, 20(4), 2923-2960.

          Yampolskiy, R. V. (2016). Artificial intelligence safety engineering: Why machine ethics is a wrong approach. In Ethics in Science and Engineering National Institute (Vol. 13).

          Gehrmann, C., Gunnarsson, M., & Winquist, M. (2019). A security framework for IoT based on PKI and extended DTLS protocols. In 2019 Global IoT Summit (GIoTS) (pp. 1-6). IEEE.