02569nam 2200349 n 450 991013819970332120230225112055.0(CKB)3230000000017663(NjHacI)993230000000017663(EXLCZ)99323000000001766320230225d2011 uu 0engur|||||||||||txtrdacontentcrdamediacrrdacarrierThe Kunskapsskolan ("The Knowledge School") A Personalised Approach to Education /Odd Eiken[Place of publication not identified] :[Publisher's name not identified],2011.1 online resource (6 pages)Kunskapsskolan is a chain of independent secondary schools which functions as a comprehensive platform for personalised education, known as the Kunskapsskolan programme (KED). What is special about this programme is that students set their own objectives, work independently and are assessed against their personal academic goals. Kunskapsskolan is a unique programme in that every step and element of learning is defined--from teachers' roles to IT and architecture--in order to facilitate personalised learning. This programme is operated in Kunskapsskolan's 33 secondary and upper secondary schools in Sweden and in 2 secondary schools in United Kingdom. The first US school will open this year in New York. KED schools personalise students' education through a combination of goal setting, weekly coaching, personalised scheduling and timing and a unique curriculum maintained on the web-based Learning Portal. Students study according to different lesson formats, ranging from lectures and workshops to seminars and laboratories, depending on tasks and needs. Parents, students and teachers/coaches meet at the start of every term to decide on each student's individual educational plan and long-term goal. Students then have weekly meetings with their coach to discuss their goals, schedule, and whether they have met the goals set in previous meetings. Over time, students develop personal responsibility for, and ownership of, what they learn.The Kunskapsskolan (ג€The Knowledge Schoolג€)The Kunskapsskolan Foreign trade and employmentForeign trade and employment.331.12Eiken Odd1331373NjHacINjHaclDOCUMENT9910138199703321The Kunskapsskolan ("The Knowledge School")3040319UNINA05790nam 2200793 a 450 991101951010332120200520144314.097811186172051118617207978111861729811186172909781118616888111861688X(CKB)2670000000341472(EBL)1143613(SSID)ssj0000833484(PQKBManifestationID)11519918(PQKBTitleCode)TC0000833484(PQKBWorkID)10936586(PQKB)11759155(MiAaPQ)EBC1143613(PPN)175664846(OCoLC)841170222(CaSebORM)9781118617205(OCoLC)876268804(OCoLC)ocn876268804(Perlego)1010950(EXLCZ)99267000000034147220110316d2011 uy 0engur|n|---|||||txtccrIP, Ethernet, and MPLS networks resource and fault management /Andre Perez1st editionLondon ISTE ;Hoboken, N.J. Wiley20111 online resource (288 p.)ISTEDescription based upon print version of record.9781848212855 1848212852 Includes bibliographical references (p. [255]-258) and index.Cover; Title Page; Copyright Page; Table of Contents; Preface; Chapter 1. Network Operation; 1.1. Basic concepts; 1.1.1. Layered structure; 1.1.2. LANs; 1.1.3. WANs networks; 1.1.4. Protocol architecture; 1.1.5. Addressing principles; 1.2. IP technology; 1.2.1. Routing; 1.2.2. The IPv4 protocol; 1.2.3. The IPv6 protocol; 1.3. The MPLS technology; 1.3.1. Label switching; 1.3.2. Tables in the LSR; 1.3.3. The PHP function; 1.3.4. The format of the MPLS header; 1.3.5. Encapsulation of a labeled packet; 1.4. The ICMP; 1.5. Ethernet technology; 1.5.1. The physical layer; 1.5.2. The data link layerChapter 2. Characterizing Quality of Service2.1. Quality of service functions; 2.2. Quality of network operation; 2.2.1. Availability; 2.2.2. Admissibility; 2.2.3. Loss ratio; 2.2.4. Delay; 2.2.5. Jitter; 2.2.6. Classes of service; 2.2.7. Bandwidth; 2.3. Requirements of applications; 2.3.1. Voice; 2.3.2. Video; 2.3.3. Application and control data; 2.4. The service contract; 2.4.1. The "Enterprise" section; 2.4.2. The "Service" section; 2.4.3. The "Technology" section; 2.4.4. The Quality of Service report; Chapter 3. Transport Protocols; 3.1. Introduction; 3.2. The TCP3.2.1. Format of the TCP header3.2.2. Initiating and closing a connection; 3.2.3. Data transfer; 3.2.4. The slow start and congestion avoidance mechanisms; 3.2.5. The fast retransmit and fast recovery mechanisms; 3.2.6. The ECN mechanism; 3.3. The UDP; 3.3.1. Format of the UDP header; 3.4. The RTP; 3.4.1. Format of the RTP header; 3.5. The RTCP; 3.5.1. Format of the SR message; 3.5.2. Format of the RR message; 3.6. The DCCP; 3.6.1. DCCP procedure; 3.6.2. Congestion control; 3.6.3. Format of the DCCP header; 3.6.4. Options; 3.7. The SCTP; 3.7.1. Format of the SCTP header; 3.7.2. Association3.7.3. Data transferChapter 4. Implementing Operation Quality; 4.1. The architectural framework; 4.2. Implementation of resource management; 4.2.1. Relative QoS; 4.2.2. Guaranteed QoS; 4.2.3. Resource reservation scenarios; 4.2.4. Mechanisms associated with the user plane; 4.2.5. Load balancing; 4.2.6. Link optimization mechanisms; 4.3. Implementing fault management; 4.3.1. Network reconfiguration; 4.3.2. Fault detection; 4.3.3. Equipment reconfiguration; Chapter 5. IP Technology - Resource Management; 5.1. Introduction; 5.2. The DiffServ model; 5.2.1. The DSCP field5.2.2. The DiffServ architecture5.3. The IntServ model; 5.3.1. Principles of resource reservation; 5.3.2. The RSVP; 5.4. The ARSVP protocol; 5.4.1. Principles of aggregation; 5.4.2. The ARSVP procedure; Chapter 6. IP Technology - Fault Management; 6.1. Introduction; 6.2. Hot Standby Router Protocol; 6.2.1. Operating principles; 6.2.2. Format of the HSRP message; 6.2.3. Load balancing; 6.3. Virtual Router Redundancy Protocol; 6.3.1. Operating principles; 6.3.2. Format of the VRRP message; 6.4. OSPF protocol; 6.4.1. Operating principles; 6.4.2. Format of the OSPF message6.4.3. Restarting the OSPF protocolThis book summarizes the key Quality of Service technologies deployed in telecommunications networks: Ethernet, IP, and MPLS. The QoS of the network is made up of two parts: fault and resource management. Network operation quality is among the functions to be fulfilled in order to offer QoS to the end user. It is characterized by four parameters: packet loss, delay, jitter or the variation of delay over time, and availability. Resource management employs mechanisms that enable the first three parameters to be guaranteed or optimized. Fault management aims to ensure continuity of service.ISTEInternet Protocol, Ethernet and Multiprotocol Label Switching networksComputer networksManagementComputer networksQuality controlResource allocationFault-tolerant computingComputer networksManagement.Computer networksQuality control.Resource allocation.Fault-tolerant computing.004.6Perez Andre871906MiAaPQMiAaPQMiAaPQBOOK9911019510103321IP, Ethernet, and MPLS networks3946072UNINA