Relevance and need


Posted by raimund.hudak in category: Setting the research focus
What do we want to study, what is the problem?

The case method describes real management issues in real companies. Cases are used as a basis for classdiscussion and give participants the opportunity to take on the roles of keyplayers in actual business situations.
By engaging students in business conflicts developed from real events, cases immerse students in the challenges they are expected to face. Challenges that require thoughtful analyses with limited or even insufficient information. That require effective responses within ambiguous circumstances or complex economic and political contexts. That, most of all, demand decisive action that must be articulated -and even defended - among other talented, ambitious individuals.
 

    Research agenda and case study topics


    Posted by raimund.hudak in category: Setting the research focus
    The research agenda will give guidance to the collaborators how to approach the research. What are the case study topics?

     Columbia Space Shuttle was launched for the first time on mission STS-1 on 12 April 1981, the first flight of the Space Shuttle program. Over 22 years of service it completed 27 missions before disintegrating during re-entry near the end of its 28th mission, STS-107 on 1 February 2003, resulting in the deaths of all seven crew members.
    The main objectives are to enhance understanding of organizational decision making and learning as well as catastrophic failures; to help students understand how failures can evolve; to think about how to prevent failures in an organization; and to examine how to manage crises effectively. Also, to learn leadership behavior and how to build an organization that is less susceptible to significant preventable failures.
     
     
    Article's Structure: 
        
    1) A Successful 15-Day Mission 
    2) The Shuttle that Never Came Home 
    3) Columbia Accident Investigation Board 
    4) Debris Recovery 
    5) What Caused the Columbia Disaster? – Technical Causes
    6) The Lost Crew
    7) Organizational Causes of the Accident 
    8) Consequences of the Accident
     

      Context


      Posted by raimund.hudak in category: Setting the research focus
      What is the context we need to address?

      Users play the role of the protagonist in a classroom re-enactment of a critical Mission Management Team meeting that took place on Flight Day 8 (January 24, 2003). Users examine the organizational causes of the tragedy rather than focus on the technical cause
       
       
      The Columbia Disaster is one of the most tragic events in spaceflight history. Its impact on US human spaceflight program, and the resulting decision to discontinue the Space Shuttle Program, was so dramatic that to this date NASA has not recovered an autonomous human access to space.
      This section of Space Safety Magazine is dedicated to the Columbia disaster. By reading this introduction, and the articles accessible from the sidebar, you will learn all the facts that led to this tragedy, its technical and organizational causes, its consequences on NASA and futurehuman spaceflight programs, the lessons learned, and the precious testimony of people directly involved in the event.
      The lessons learned remain as relevant today as they were in 2003, if only we can keep them alive and continue to learn from this modern tragedy.
       
      *1) A Successfull 15-Day Mission

      1) A Successfull 15-Day Mission

      February 01, 2003. It was an ordinary morning at the Kennedy Space Center in Cape Canaveral, Florida. Spectators had gathered to watch Space Shuttle Columbia make what was considered another routine landing. They only numbered a couple of hundred, compared to the thousands who had gathered to watch STS-1 land. Nothing unusual was anticipated that day at NASA.
      The seven-member crew of STS-107 was preparing to come home after a successful 15-day mission. Captain Rick Douglas Husband, Pilot William "Willie" Cameron McCool, Payload Commander Michael P. Anderson, Payload Specialist Ilan Ramon, and Mission Specialists David McDowell Brown, Kalpana "KC" Chawla, and Laurel Blair Salton Clark, had conducted microgravity research and completed experiments on commercial payloads on the debuting SPACEHAB Research Double Module. They were relaxed and jovial as the Shuttle re-entered the atmosphere, even shooting a video of what - no one realized - were their last moments.
       
       
      *2) The Shuttle that Never Came Home

      2) The Shuttle that Never Came Home

      Columbiawas the first fully operational orbiter of the Space Shuttle Program. Itsinaugural flight was on 25th March1981. More than two decades later, STS-107 was Columbia’s 28th mission.
      Inside mission control, engineers performed all thelast minute checks. Everything seemed nominal. Entry Flight Director LeRoyCain gave Shuttle commander Rick Husband the go-ahead to initiate deorbit and reentry procedures. But nine minutes after entry interface into theEarth’s atmosphere, the ground team encountered the first hint of abnormality.
      Telemetry indicated that hydraulic fluid temperatureshad suddenly gone off-scale low. The sensors measuring the data were alllocated in the aft of the Shuttle’s left wing. There was no commonality thatcould explain the fault and all other hydraulic system indications were good.Soon, loss of tire pressure on the left side followed, with the readings againgoing off-scale. This was already bad news for the Shuttle. Columbia could notmake a landing while losing tire pressure. Further losses of sensors in thenose gear and main gear compounded the nervous atmosphere in mission control.
      Then all communications from Columbia ceased abruptly.Patchy communications were expected during re-entry, but not deathly silence.All efforts from Houston to hail Columbia failed. Even the radar used to trackthe Shuttle did not spot anything. The Shuttle’s trajectory was timed toperfection. So there was no way for it to be ‘late’. The absence ofcommunication and tracking data could mean only one thing.
      “Lock the doors”,remarked flight director Cain. It was a standard procedure to cut off contactwith the outside world and keep all information within the room. Just as in acrime scene.
      Meanwhile, reports were coming in from Texas, whichlay along Columbia’s descent path, of people spotting fireballs and fallingdebris from the sky. There were no doubts left. Space Shuttle Columbia and crewwere lost.
       
      *3) Columbia Accident Investigation Board

      3) Columbia Accident Investigation Board

      As soon as disaster struck, NASA activated the International Space Station (ISS) and Space Shuttle Mishap Interagency Investigation Board according to its Contingency Action Plan for Space Flight Operations. The day after the accident, all the board members were officially appointed with Naval Admiral Gehman as the chairman. Other members appointed were Major General John L. Barry, Director of Program and Plans for the Air Force Material Command, Rear Admiral Stephen A. Turcotte, Commander, Naval Safety Center, Brigadier General Duane W. Deal, commander of the subordinate 21st Space Wing, Major General Kenneth W. Hess, U.S. Air Force (USAF) Chief of Safety, G. Scott Hubbard, Director of the Ames Research Center, Dr. James N. Hallock, Department of Transportation (DOT) Chief of Aviation Safety Division and Steven B. Wallace, Federal Aviation Administration (FAA) Office of Accident Investigation. Additional members joined soon after, including Douglas D. Osheroff, Nobel laureate in Physics from Stanford, John M. Logsdon, Director of the Space Policy Institute at George Washington University, Sheila E. Widnall, Professor of Aeronautics and Astronautics at MIT, Roger E. Tetrault, retired Chairman and Chief Executive Officer of McDermott Internationaland astronaut Sally Ride, who was also part of the Challenger investigation team.
      Right from the start, the board aimed to investigate how the Columbia disaster happened as well as look into NASA's organization and culture. To reflect this approach, the board changed its name to the Columbia Accident Investigation Board (CAIB).
       
      *4) Debris Recovery

      4) Debris Recovery

      The world was shocked. The nation grieved. But at NASA, there was work to be done. The first step was to collect the Shuttle’s wreckage in order to start piecing together what happened. As Mike Ciannilli, Project Manager of the Columbia Research and Preservation Office, recounts in our story “Living with Columbia”, this was not an easy task. The debris was spread over an area of 5129 sq. km in east Texas, necessitating the largest search in American history.
      The nation, though, came together and responded. Thousands of volunteers descended upon Texas to participate in the effort to gather the Shuttle’s remains. They lived and worked under difficult conditions, not expecting anything in return. These people “put their life on hold to help out the nation’s space program”, says Ciannilli gratefully, “ it becomes very real what space means to people.”
      It took four months for all the debris to be assembled. CAIB and its partners could finally complete the technical post-mortem.
       
      *5) What Caused the Columbia Disaster? – Technical Causes

      5) What Caused the Columbia Disaster? – Technical Causes

      The CAIB report determined that the technical cause of the accident was a faulty design in the External Tank. A piece of insulating foam broke off the tank just after launch and struck the leading edge of the Shuttle’s left wing at a relative velocity of 670-922km/h. Although the incident was discovered two days after the launch during a routine post-launch photo analysis, managers at NASA deemed it “absolutely no concern for entry”.
      The six volumes of CAIB report explain the sequence of events that led to the breakup of the Shuttle. An apparently harmless 1kg piece of foam debris had blown a hole in the left wing. While it seems impossible that low-density foam can destroy a reinforced carbon-carbon panel,ground tests proved this fact to be true at tremendous speeds.
      The hole in the thermal protection tile allowed super-heated air, produced during atmospheric entry, to pass through. The heat penetrated the insulation and ultimately destroyed the left wing. The thermal degradation resulted in “resulted in a rapid catastrophic structural breakdown rather than an instantaneous explosive failure”. At an altitude of 42,672m, the crew module separated from the fuselage, triggering instant depressurization. For all the details, read Cause and Consequences of the Columbia Disaster by Gary W. Johnson, an Aerospace Safety Consultant who worked for NASA.
      NASA later revealed that foam strikes had been seen in almost every Shuttle launch and that it had never proved a problem before. Their flawed reasoning combined with wrong assumptions in modeling the impact (that predicted the depth to which the foam debris would penetrate a Thermal Protection System tile), ultimately led seven astronauts to pay with their lives.
      The high speed impact testing of a block of foam into a reinforced carbon-carbon model of Space Shuttle wing proved that the foam strike was the most likely cause of the Columbia disaster.
       
      *6) The Lost Crew

      6) The Lost Crew

      But what really happened to Columbia’s crew? Besides the loss of the vehicle, the Columbia disaster was first and foremost a human tragedy, and NASA wanted to know what killed the Columbia crew.
      The investigation revealed that when the crew module separated from the fuselage, rapid depressurization occurred. The crewmembers did not even have the time to close their helmet visors. Some of the crew were not wearing helmets or gloves and “were incapacitated within seconds”. The unconscious crew was subjected to rotation forces caused by the Shuttle’s rolling after the loss of the left wing. The seat restraints could not prevent lethal blows from other objects in the crew module. Even if they had been wearing all their gear, the report predictedthey had little chance of survival. It states the cause of death as ‘blunt trauma and loss of oxygen’.
      A damaged videotape that was recovered from the wreckage shows the final few moments of the crew. Ironically, they are seen enjoying the effects of the heat caused by re-entry, glowing against the window, which would later rip the Shuttle apart.
      NASA tried to remove the Crew Survival Working Group section from the CAIB report, considering it too disturbing for the victim’s families. Dr. Jonathan Clark had a different opinion, and he was in a unique position. From one side he was a Space Shuttle Crew Surgeon, and he had always been involved in topics like crew survival. From the other, he had been directly affected by the tragedy, as he was the husband of Laurel Clark, one of the victims.
      Either way, he believed that the Columbia Crew Survival Working Group section constituted a fundamental document that had to be published to prevent a similar tragedy in the future. He discussed the issue with the other affected families, and got their unconditional approval to publish it.
      A second commission, the Spacecraft Crew Survival Integrated Investigation Team (SCSIIT), was formed a year after the tragedy “to perform a comprehensive analysis of the accident, focusing on factors and events affecting crew survival, and to develop recommendations for improving crew survival for all future human space flight vehicles.” Clark was a member of the SCSIIT and spent months investigating the last instant of the life of the crew. The result was a detailed report, entitled Columbia Crew Survival Investigation Report. On December 30, 2008, the 400 page report was finally released to the public.
      In 2009, Jonathan Clark joined the Red Bull Stratos team as medical director, hoping to help developing the gear that could save future crews from accidents like Columbia. His dream came true on October 14, 2012, when Felix Baumgartner survived a parachute jump from 39km, very close to the altitude where Columbia broke apart.
      You can read the precious testimony of Jonathan Clark in his article “Remembering the Columbia Crew, One Day at a Time.”
       
      *7) Organizational Causes of the Accident

      7) Organizational Causes of the Accident

      Besides the technical faults, the CAIB investigation slammed the NASA management and culture for its shortfalls. “CAIB particularly called out a NASA culture that accepted mission success over engineering understanding, the stifling of differences of opinion, and evolution of an informal chain of command”, says Gary Johnson in his article “Causes and Consequences of the Columbia Disaster.”
      Bryan O’Connor, NASA Chief, Safety and Mission Assurance and former Shuttle pilot, lists his personal lessons learned from the disaster in “Lessons learned from the Columbia disaster”. He says they should never have gotten complacent following a decade and a half of successful Shuttle missions. The Shuttle was, in effect, a 30-year flight test program and not “purely operational”.
      “Organizational factors of the Columbia disaster” tackles the importance of creating a culture of open communication in an organization. Both the Inter-center Photo Working Group Chair and Debris Assessment Team had requested on-orbit photos of the Shuttle in order to assess possible damage from the foam debris. Wayne Hale, then the incoming Space Shuttle Program Launch Integration Manager, was in the process of contacting the US Department of Defense (DoD) to pass on this request to capture on-orbit photos. But he was struck down by Shuttle manager Linda Ham. Senior managers at Johnson space center had declined the need for such information, overruling the engineers. In a later interview, flight director LeRoy Cain said there were five meetings on the foam issue but they all concluded with no action required. Somehow the engineers’ sense of urgency never made it to the top.
      Hale was even told by Jon Harpold, then NASA director of mission operations, “You know, there is nothing we can do about damage to the thermal protection system. If it has been damaged it’s probably better not to know. I think the crew would rather not know. Don’t you think it would be better for them to have a happy successful flight and die unexpectedly during entry than to stay in orbit, knowing that there was nothing to be done, until the air ran out?” NASA ignored the issue hoping it would not be a problem.
      In 1986, the explosion of the explosion of Shuttle Challenger had been a wake-up call for NASA. By 2003, the high standards and procedures brought in after Challenger had slipped away. What should have caused concern was swept under the banner of ‘normal’. Ciannilli echoes this sentiment, “Keep vigilant when things that were once off-nominal, become normal for you. Make sure the decisions you make are really based on facts.”
      What NASA learned from the Columbia disaster has been captured in programs such as theAcademy of Program/Project and Engineering Leadership (APPEL), which serves as a resource for future NASA investigation boards, government and private agencies.
       
      *8) Consequences of the Accident

      8) Consequences of the Accident

      Despite being an organizational failure, someone had to take the fall. Responding to pressure from the congress, NASA reassigned certain key personnel involved, including Ron Dittemore, the Shuttle program manager, General Roy Bridges, director of the Kennedy Space Center and Linda Ham, head of mission management.
      A host of changes were made in the hardware as well as program procedures. The External Tank Thermal Protection System was redesigned to reduce foam shedding. Video cameras were installed on the External Tank, boosters, and impact sensors set up on the Shuttle nose cap and reinforced carbon–carbon panel on the wing. After all subsequent launches, ground engineers used these cameras to inspect the TPS tiles. The assistance of the International Space Station as well as the Shuttle’s own robotic arm has also been taken to inspect the heat shield.
      The Columbia Disaster was also the first space accident that posed the general public in danger. It was by pure chance that Columbia’s debris had fallen over sparsely populated regions of Texas. The accident warranted NASA to include public risk acceptability criteria for all launches and reentries. NASA worked with the Federal Aviation Administration (FAA) to develop a real-time mishap response system to alert aircraft and rapidly clear potentially threatened airspace during subsequent Shuttle reentries. Dr. Paul Wilde, technical advisor for the Chief Engineer in the FAA Office of Commercial Space Transportation, explains the “impact of the disaster on US aviation safety”.
      The Agency kept its commitment to safety by establishing the NASA Engineering Safety Center and a Chief Safety Officer for Space Shuttle. It took two and a half years to complete the reviews, hearings and investigations and for the modifications to be put in place. Even then, it was a close call for Discovery, NASA’s return to flight Shuttle. Wayne Hale narrates the events in “How we nearly lost Discovery”.
      The most significant outcome of the Columbia accident, however, was CAIB’s recommendations that led to the end the Shuttle Program. NASA would keep their commitment to complete the International Space Station, a task that could only be carried out by the Shuttle, then retire the orbiter fleet, and fly their astronauts on Russian Soyuz until a new vehicle will become available.
       

      • lukas.wentzel

        Copy&Paste didn't work out for the apostrophe ('), dashs (-) and quotation marks (" ").

      Research questions and case study objectives


      Posted by raimund.hudak in category: Setting the research focus
      What are the research questions and case study objectives?

      Describes the 16-day final mission of the space shuttle Columbia in January 2003 in whichseven astronauts died. Includes background on NASA and the creation of the human space flight program, including the 1970 Apollo 13 crisis and 1986Challenger disaster. 
       
      Examines NASA's organizational culture, leadership, and the influences on the investigation of and response to foam shedding from the external fuel tank during shuttle launch. 
       
      Key objectives:
         To analyze the flawed response to an ambiguous but potentially threatening signal during a period in which recovery of the shuttle was possible.
       
      Subjects to be covered:
      Crisis management; Crisis prevention; Decision making; Group dynamics; Leadership; Management skills; Organizational behavior; Organizational culture
       

        Literature and other source


        Posted by raimund.hudak in category: Preparation
        Identify key literature and other source, e.g. articles, videos on the topic.

        The investor report "10k-Report" is an excellent resource for a broad overview of a company's strategy and financials.
        Space Shuttle Columbia Disaster LIVE NASA TV
        https://www.youtube.com/watch?v=94J9oVeST0k
         
        REPORT: "It broke up! The shuttle broke up!": Remembering Columbia (cbsnews.com)
        http://www.cbsnews.com/news/it-broke-up-the-shuttle-broke-up-remembering-columbia/
         
        ARTICLE: Columbia Disaster: What Happened, What NASA Learned (space.com)
        http://www.space.com/19436-columbia-disaster.html
         
        ARTICLE/ VIDEO: Columbia Disaster (HISTORY.com)
        http://www.history.com/topics/columbia-disaster
         
        VIDEO: BBC Space Documentary 2015:Columbia Space Shuttle Disaster
        https://www.youtube.com/watch?v=mK3iobfIUSA
         
        ARTICLE/ VIDEO: The Space Shuttle Columbia Disaster
        http://www.spacesafetymagazine.com/space-disasters/columbia-disaster/
         

          Theoretical framework


          Posted by raimund.hudak in category: Preparation
          Elaborate on the role of theory, theoretical framework, related models and methods.

           

            Research approach


            Posted by raimund.hudak in category: Preparation
            Define your research approach, consider validity, reliability, sampling etc.

             

              Prepare instruments and collect data


              Posted by raimund.hudak in category: Data Collection
              Define and prepare your research instruments and media used etc.

               

                Compile and upload data


                Posted by raimund.hudak in category: Data Analysis
                Prepare the data and distribute roles for data analysis

                What caused the Columbia disaster - BBC News 2015:
                http://www.bbc.com/future/story/20150130-what-caused-the-columbia-disaster
                 

                  Analyze, Elaborate, iterate


                  Posted by raimund.hudak in category: Data Analysis
                  Analyse and elaborate on the findings, iterate and reach the key results of your research effort

                   

                    Define tasks and roles


                    Posted by raimund.hudak in category: Article writing
                    Define tasks and roles for the case study writing

                    What are specific tasks and roles for the OER writing?
                    Collaborators can define here additional tasks to be investigated  orto be shared among members.
                     

                      Write, iterate the publication


                      Posted by raimund.hudak in category: Article writing
                      Write the publication and iterate towards a harmonized paper

                      Collaborators share here their view, how to write the paper (e.g. article, term paper, PowerPoint).
                      What are specific tasks and roles for the OER writing?
                       

                        Experiences and Feedback


                        Posted by raimund.hudak in category: Feedback and next steps
                        All stakeholders provide their experiences

                         

                          Submit OER - HERE!


                          Posted by raimund.hudak in category: Feedback and next steps
                          Submit your paper and OERs here.

                          Collaborators - Please upload your research material and results here:
                          Submit your publication here. This can contain an article, a Power Point presentation and summary or a term paper etc.
                           
                          The following links show the PowerPoint presentations of the student research work at the MBA classes at the university of applied science Pforzheim in 2011 and 2014. The case study was part of the syllabus and examination.
                           http://idea-space.eu:19001/up/aa1b26ae2371f498468156c8a5f21aee.pptx 
                           http://idea-space.eu:19001/up/6f9313df84557db16cc218aeb56e100a.pptx 
                           

                            Refine and plan next steps


                            Posted by raimund.hudak in category: Feedback and next steps
                            In case of revision or outcomes, refine the work and continue towards common research agenda