Reference record for OID 1.3.6.1.4.1.9.9.612


parent
1.3.6.1.4.1.9.9 (ciscoMgmt)
node code
612
node name
ciscoLwappDot11MIB
dot oid
1.3.6.1.4.1.9.9.612
type
OBJECT IDENTIFIER
asn1 oid
  • {iso(1) identified-organization(3) dod(6) internet(1) private(4) enterprise(1) cisco(9) ciscoMgmt(9) ciscoLwappDot11MIB(612)}
  • {iso(1) identified-organization(3) dod(6) internet(1) private(4) enterprises(1) cisco(9) ciscoMgmt(9) ciscoLwappDot11MIB(612)}
  • {iso(1) org(3) dod(6) internet(1) private(4) enterprise(1) cisco(9) ciscoMgmt(9) ciscoLwappDot11MIB(612)}
  • {iso(1) org(3) dod(6) internet(1) private(4) enterprises(1) cisco(9) ciscoMgmt(9) ciscoLwappDot11MIB(612)}
  • {iso(1) iso-identified-organization(3) dod(6) internet(1) private(4) enterprise(1) cisco(9) ciscoMgmt(9) ciscoLwappDot11MIB(612)}
  • {iso(1) iso-identified-organization(3) dod(6) internet(1) private(4) enterprises(1) cisco(9) ciscoMgmt(9) ciscoLwappDot11MIB(612)}
  • iri oid
  • /iso/identified-organization/dod/internet/private/enterprise/cisco/ciscoMgmt/ciscoLwappDot11MIB
  • /iso/identified-organization/dod/internet/private/enterprises/cisco/ciscoMgmt/ciscoLwappDot11MIB
  • /iso/org/dod/internet/private/enterprise/cisco/ciscoMgmt/ciscoLwappDot11MIB
  • /iso/org/dod/internet/private/enterprises/cisco/ciscoMgmt/ciscoLwappDot11MIB
  • /iso/iso-identified-organization/dod/internet/private/enterprise/cisco/ciscoMgmt/ciscoLwappDot11MIB
  • /iso/iso-identified-organization/dod/internet/private/enterprises/cisco/ciscoMgmt/ciscoLwappDot11MIB
  • iri by oid_info
    /ISO/Identified-Organization/6/1/4/1/9/9/612

    Description by circitor

    This MIB is intended to be implemented on all those
    devices operating as Central controllers, that
    terminate the Light Weight Access Point Protocol
    tunnel from Cisco Light-weight LWAPP Access Points.

    This MIB provides the information about the
    operational parameters of the 802.11 networks.
    References about specific type of 802.11 flavors like
    802.11a/b/g or 802.11n will be made whereever required
    to indicate that the respective parameters are
    applicable only to that particular type of 802.11
    networks.

    The relationship between CC and the LWAPP APs
    can be depicted as follows:

    +......+ +......+ +......+
    + + + + + +
    + CC + + CC + + CC +
    + + + + + +
    +......+ +......+ +......+
    .. . .
    .. . .
    . . . .
    . . . .
    . . . .
    . . . .
    +......+ +......+ +......+ +......+
    + + + + + + + +
    + AP + + AP + + AP + + AP +
    + + + + + + + +
    +......+ +......+ +......+ +......+
    . . .
    . . . .
    . . . .
    . . . .
    . . . .
    +......+ +......+ +......+ +......+
    + + + + + + + +
    + MN + + MN + + MN + + MN +
    + + + + + + + +
    +......+ +......+ +......+ +......+


    The LWAPP tunnel exists between the controller and
    the APs. The MNs communicate with the APs through
    the protocol defined by the 802.11 standard.

    LWAPP APs, upon bootup, discover and join one of the
    controllers and the controller pushes the configuration,
    that includes the WLAN parameters, to the LWAPP APs.
    The APs then encapsulate all the 802.11 frames from
    wireless clients inside LWAPP frames and forward
    the LWAPP frames to the controller.

    GLOSSARY

    Access Point ( AP )

    An entity that contains an 802.11 medium access
    control ( MAC ) and physical layer ( PHY ) interface
    and provides access to the distribution services via
    the wireless medium for associated clients.

    LWAPP APs encapsulate all the 802.11 frames in
    LWAPP frames and sends them to the controller to which
    it is logically connected.

    Gratuitous Probe Response (GPR)

    The Gratuitous Probe Response feature aids in conserving
    battery power of WLAN-enabled cell phones by providing
    a high rate packet on the order of tens of milliseconds
    such that these kind of phones can wake up and wait at
    predefined intervals, to reduce battery power. The
    GPR packet is transmitted from the AP at a predefined
    time interval.


    Light Weight Access Point Protocol ( LWAPP )

    This is a generic protocol that defines the
    communication between the Access Points and the
    Central Controller.

    Mobile Node ( MN )

    A roaming 802.11 wireless device in a wireless
    network associated with an access point. Mobile Node
    and client are used interchangeably.

    TU

    A measurement of time in units of 1024 microseconds.

    802.11n

    802.11n builds upon previous 802.11 standards by adding MIMO
    (multiple-input multiple-output). MIMO uses multiple
    transmitter and receiver antennas to allow for increased data
    throughput through spatial multiplexing and increased range .


    A-MPDU

    An aggregated format that consists of several MAC
    Protocol Data Units being aggregated and transmitted
    in one PHY Service Data Unit.

    A-MSDU

    An aggregated format that consists of several MAC
    Service Data Units being aggregated and transmitted
    in one MAC Protocol Data Unit.

    Reduced Inter-Frame Space ( RIFS )

    A time interval between multiple transmissions of a
    single transmitter used to reduce overhead and
    increase network efficiency.

    Modulation and Coding Scheme ( MCS )

    This is a value that determines the modulation, coding and
    number of spatial channels. Each scheme specifies the
    modulation technique, coding rate , number of spatial
    streams etc and the corresponding data rate.

    Guard Interval

    Guard intervals are used to ensure that distinct
    transmissions do not interfere with one another.
    The purpose of the guard interval is to introduce
    immunity to propagation delays, echoes and
    reflections, to which digital data is normally
    very sensitive.

    Media Access Control ( MAC )

    The Media Access Control Layer is one of two sublayers
    that make up the Data Link Layer. The MAC layer is
    responsible for moving data packets to and from one
    Network Interface Card (NIC) to another across a shared
    channel.

    REFERENCE

    [1] Wireless LAN Medium Access Control ( MAC ) and
    Physical Layer ( PHY ) Specifications.

    [2] Draft-obara-Capwap-lwapp-00.txt, IETF Light
    Weight Access Point Protocol.

    [3] Enhanced Wireless Consortium MAC Specification,
    v1.24.

    [4] Enhanced Wireless Consortium PHY Specification,
    v1.27.

    Parsed from file CISCO-LWAPP-DOT11-MIB.mib
    Module: CISCO-LWAPP-DOT11-MIB

    Description by mibdepot

    This MIB is intended to be implemented on all those
    devices operating as Central controllers, that
    terminate the Light Weight Access Point Protocol
    tunnel from Cisco Light-weight LWAPP Access Points.

    This MIB provides the information about the
    operational parameters of the 802.11 networks.
    References about specific type of 802.11 flavors like
    802.11a/b/g or 802.11n will be made whereever required
    to indicate that the respective parameters are
    applicable only to that particular type of 802.11
    networks.

    The relationship between CC and the LWAPP APs
    can be depicted as follows:

    +......+ +......+ +......+
    + + + + + +
    + CC + + CC + + CC +
    + + + + + +
    +......+ +......+ +......+
    .. . .
    .. . .
    . . . .
    . . . .
    . . . .
    . . . .
    +......+ +......+ +......+ +......+
    + + + + + + + +
    + AP + + AP + + AP + + AP +
    + + + + + + + +
    +......+ +......+ +......+ +......+
    . . .
    . . . .
    . . . .
    . . . .
    . . . .
    +......+ +......+ +......+ +......+
    + + + + + + + +
    + MN + + MN + + MN + + MN +
    + + + + + + + +
    +......+ +......+ +......+ +......+


    The LWAPP tunnel exists between the controller and
    the APs. The MNs communicate with the APs through
    the protocol defined by the 802.11 standard.

    LWAPP APs, upon bootup, discover and join one of the
    controllers and the controller pushes the configuration,
    that includes the WLAN parameters, to the LWAPP APs.
    The APs then encapsulate all the 802.11 frames from
    wireless clients inside LWAPP frames and forward
    the LWAPP frames to the controller.

    GLOSSARY

    Access Point ( AP )

    An entity that contains an 802.11 medium access
    control ( MAC ) and physical layer ( PHY ) interface
    and provides access to the distribution services via
    the wireless medium for associated clients.

    LWAPP APs encapsulate all the 802.11 frames in
    LWAPP frames and sends them to the controller to which
    it is logically connected.

    Gratuitous Probe Response (GPR)

    The Gratuitous Probe Response feature aids in conserving
    battery power of WLAN-enabled cell phones by providing
    a high rate packet on the order of tens of milliseconds
    such that these kind of phones can wake up and wait at
    predefined intervals, to reduce battery power. The
    GPR packet is transmitted from the AP at a predefined
    time interval.


    Light Weight Access Point Protocol ( LWAPP )

    This is a generic protocol that defines the
    communication between the Access Points and the
    Central Controller.

    Mobile Node ( MN )

    A roaming 802.11 wireless device in a wireless
    network associated with an access point. Mobile Node
    and client are used interchangeably.

    TU

    A measurement of time in units of 1024 microseconds.

    802.11n

    802.11n builds upon previous 802.11 standards by adding MIMO
    (multiple-input multiple-output). MIMO uses multiple
    transmitter and receiver antennas to allow for increased data
    throughput through spatial multiplexing and increased range .


    A-MPDU

    An aggregated format that consists of several MAC
    Protocol Data Units being aggregated and transmitted
    in one PHY Service Data Unit.

    A-MSDU

    An aggregated format that consists of several MAC
    Service Data Units being aggregated and transmitted
    in one MAC Protocol Data Unit.

    Reduced Inter-Frame Space ( RIFS )

    A time interval between multiple transmissions of a
    single transmitter used to reduce overhead and
    increase network efficiency.

    Modulation and Coding Scheme ( MCS )

    This is a value that determines the modulation, coding and
    number of spatial channels. Each scheme specifies the
    modulation technique, coding rate , number of spatial
    streams etc and the corresponding data rate.

    Guard Interval

    Guard intervals are used to ensure that distinct
    transmissions do not interfere with one another.
    The purpose of the guard interval is to introduce
    immunity to propagation delays, echoes and
    reflections, to which digital data is normally
    very sensitive.

    Media Access Control ( MAC )

    The Media Access Control Layer is one of two sublayers
    that make up the Data Link Layer. The MAC layer is
    responsible for moving data packets to and from one
    Network Interface Card (NIC) to another across a shared
    channel.

    REFERENCE

    [1] Wireless LAN Medium Access Control ( MAC ) and
    Physical Layer ( PHY ) Specifications.

    [2] Draft-obara-Capwap-lwapp-00.txt, IETF Light
    Weight Access Point Protocol.

    [3] Enhanced Wireless Consortium MAC Specification,
    v1.24.

    [4] Enhanced Wireless Consortium PHY Specification,
    v1.27.

    Parsed from file CISCO-LWAPP-DOT11-MIB.my.txt
    Company: None
    Module: CISCO-LWAPP-DOT11-MIB

    Description by cisco

    This MIB is intended to be implemented on all those
    devices operating as Central controllers, that
    terminate the Light Weight Access Point Protocol
    tunnel from Cisco Light-weight LWAPP Access Points.

    This MIB provides the information about the
    operational parameters of the 802.11 networks.
    References about specific type of 802.11 flavors like
    802.11a/b/g or 802.11n will be made whereever required
    to indicate that the respective parameters are
    applicable only to that particular type of 802.11
    networks.

    The relationship between CC and the LWAPP APs
    can be depicted as follows:

    +......+ +......+ +......+
    + + + + + +
    + CC + + CC + + CC +
    + + + + + +
    +......+ +......+ +......+
    .. . .
    .. . .
    . . . .
    . . . .
    . . . .
    . . . .
    +......+ +......+ +......+ +......+
    + + + + + + + +
    + AP + + AP + + AP + + AP +
    + + + + + + + +
    +......+ +......+ +......+ +......+
    . . .
    . . . .
    . . . .
    . . . .
    . . . .
    +......+ +......+ +......+ +......+
    + + + + + + + +
    + MN + + MN + + MN + + MN +
    + + + + + + + +
    +......+ +......+ +......+ +......+


    The LWAPP tunnel exists between the controller and
    the APs. The MNs communicate with the APs through
    the protocol defined by the 802.11 standard.

    LWAPP APs, upon bootup, discover and join one of the
    controllers and the controller pushes the configuration,
    that includes the WLAN parameters, to the LWAPP APs.
    The APs then encapsulate all the 802.11 frames from
    wireless clients inside LWAPP frames and forward
    the LWAPP frames to the controller.

    GLOSSARY

    Access Point ( AP )

    An entity that contains an 802.11 medium access
    control ( MAC ) and physical layer ( PHY ) interface
    and provides access to the distribution services via
    the wireless medium for associated clients.

    LWAPP APs encapsulate all the 802.11 frames in
    LWAPP frames and sends them to the controller to which
    it is logically connected.

    Gratuitous Probe Response (GPR)

    The Gratuitous Probe Response feature aids in conserving
    battery power of WLAN-enabled cell phones by providing
    a high rate packet on the order of tens of milliseconds
    such that these kind of phones can wake up and wait at
    predefined intervals, to reduce battery power. The
    GPR packet is transmitted from the AP at a predefined
    time interval.


    Light Weight Access Point Protocol ( LWAPP )

    This is a generic protocol that defines the
    communication between the Access Points and the
    Central Controller.

    Mobile Node ( MN )

    A roaming 802.11 wireless device in a wireless
    network associated with an access point. Mobile Node
    and client are used interchangeably.

    TU

    A measurement of time in units of 1024 microseconds.

    802.11n

    802.11n builds upon previous 802.11 standards by adding MIMO
    (multiple-input multiple-output). MIMO uses multiple
    transmitter and receiver antennas to allow for increased data
    throughput through spatial multiplexing and increased range .


    A-MPDU

    An aggregated format that consists of several MAC
    Protocol Data Units being aggregated and transmitted
    in one PHY Service Data Unit.

    A-MSDU

    An aggregated format that consists of several MAC
    Service Data Units being aggregated and transmitted
    in one MAC Protocol Data Unit.

    Reduced Inter-Frame Space ( RIFS )

    A time interval between multiple transmissions of a
    single transmitter used to reduce overhead and
    increase network efficiency.

    Modulation and Coding Scheme ( MCS )

    This is a value that determines the modulation, coding and
    number of spatial channels. Each scheme specifies the
    modulation technique, coding rate , number of spatial
    streams etc and the corresponding data rate.

    Guard Interval

    Guard intervals are used to ensure that distinct
    transmissions do not interfere with one another.
    The purpose of the guard interval is to introduce
    immunity to propagation delays, echoes and
    reflections, to which digital data is normally
    very sensitive.

    Media Access Control ( MAC )

    The Media Access Control Layer is one of two sublayers
    that make up the Data Link Layer. The MAC layer is
    responsible for moving data packets to and from one
    Network Interface Card (NIC) to another across a shared
    channel.

    REFERENCE

    [1] Wireless LAN Medium Access Control ( MAC ) and
    Physical Layer ( PHY ) Specifications.

    [2] Draft-obara-Capwap-lwapp-00.txt, IETF Light
    Weight Access Point Protocol.

    [3] Enhanced Wireless Consortium MAC Specification,
    v1.24.

    [4] Enhanced Wireless Consortium PHY Specification,
    v1.27.

    Information by circitor

    ciscoLwappDot11MIB MODULE-IDENTITY LAST-UPDATED "200701040000Z" ORGANIZATION "Cisco Systems Inc." CONTACT-INFO "Cisco Systems, Customer Service Postal: 170 West Tasman Drive San Jose, CA 95134 USA Tel: +1 800 553-NETS Email: [email protected]" DESCRIPTION "This MIB is intended to be implemented on all those devices operating as Central controllers, that terminate the Light Weight Access Point Protocol tunnel from Cisco Light-weight LWAPP Access Points. This MIB provides the information about the operational parameters of the 802.11 networks. References about specific type of 802.11 flavors like 802.11a/b/g or 802.11n will be made whereever required to indicate that the respective parameters are applicable only to that particular type of 802.11 networks. The relationship between CC and the LWAPP APs can be depicted as follows: +......+ +......+ +......+ + + + + + + + CC + + CC + + CC + + + + + + + +......+ +......+ +......+ .. . . .. . . . . . . . . . . . . . . . . . . +......+ +......+ +......+ +......+ + + + + + + + + + AP + + AP + + AP + + AP + + + + + + + + + +......+ +......+ +......+ +......+ . . . . . . . . . . . . . . . . . . . +......+ +......+ +......+ +......+ + + + + + + + + + MN + + MN + + MN + + MN + + + + + + + + + +......+ +......+ +......+ +......+ The LWAPP tunnel exists between the controller and the APs. The MNs communicate with the APs through the protocol defined by the 802.11 standard. LWAPP APs, upon bootup, discover and join one of the controllers and the controller pushes the configuration, that includes the WLAN parameters, to the LWAPP APs. The APs then encapsulate all the 802.11 frames from wireless clients inside LWAPP frames and forward the LWAPP frames to the controller. GLOSSARY Access Point ( AP ) An entity that contains an 802.11 medium access control ( MAC ) and physical layer ( PHY ) interface and provides access to the distribution services via the wireless medium for associated clients. LWAPP APs encapsulate all the 802.11 frames in LWAPP frames and sends them to the controller to which it is logically connected. Gratuitous Probe Response (GPR) The Gratuitous Probe Response feature aids in conserving battery power of WLAN-enabled cell phones by providing a high rate packet on the order of tens of milliseconds such that these kind of phones can wake up and wait at predefined intervals, to reduce battery power. The GPR packet is transmitted from the AP at a predefined time interval. Light Weight Access Point Protocol ( LWAPP ) This is a generic protocol that defines the communication between the Access Points and the Central Controller. Mobile Node ( MN ) A roaming 802.11 wireless device in a wireless network associated with an access point. Mobile Node and client are used interchangeably. TU A measurement of time in units of 1024 microseconds. 802.11n 802.11n builds upon previous 802.11 standards by adding MIMO (multiple-input multiple-output). MIMO uses multiple transmitter and receiver antennas to allow for increased data throughput through spatial multiplexing and increased range . A-MPDU An aggregated format that consists of several MAC Protocol Data Units being aggregated and transmitted in one PHY Service Data Unit. A-MSDU An aggregated format that consists of several MAC Service Data Units being aggregated and transmitted in one MAC Protocol Data Unit. Reduced Inter-Frame Space ( RIFS ) A time interval between multiple transmissions of a single transmitter used to reduce overhead and increase network efficiency. Modulation and Coding Scheme ( MCS ) This is a value that determines the modulation, coding and number of spatial channels. Each scheme specifies the modulation technique, coding rate , number of spatial streams etc and the corresponding data rate. Guard Interval Guard intervals are used to ensure that distinct transmissions do not interfere with one another. The purpose of the guard interval is to introduce immunity to propagation delays, echoes and reflections, to which digital data is normally very sensitive. Media Access Control ( MAC ) The Media Access Control Layer is one of two sublayers that make up the Data Link Layer. The MAC layer is responsible for moving data packets to and from one Network Interface Card (NIC) to another across a shared channel. REFERENCE [1] Wireless LAN Medium Access Control ( MAC ) and Physical Layer ( PHY ) Specifications. [2] Draft-obara-Capwap-lwapp-00.txt, IETF Light Weight Access Point Protocol. [3] Enhanced Wireless Consortium MAC Specification, v1.24. [4] Enhanced Wireless Consortium PHY Specification, v1.27." REVISION "200701040000Z" DESCRIPTION "Initial version of this MIB module." ::= { ciscoMgmt 612 }

    Information by cisco_v1

    ciscoLwappDot11MIB OBJECT IDENTIFIER ::= { ciscoMgmt 612 }

    Information by oid_info

    Vendor: Cisco
    Module: CISCO-LWAPP-DOT11-MIB

    [Automatically extracted from oidview.com]

    Information by mibdepot

    ciscoLwappDot11MIB MODULE-IDENTITY LAST-UPDATED "200701040000Z" ORGANIZATION "Cisco Systems Inc." CONTACT-INFO "Cisco Systems, Customer Service Postal: 170 West Tasman Drive San Jose, CA 95134 USA Tel: +1 800 553-NETS Email: [email protected]" DESCRIPTION "This MIB is intended to be implemented on all those devices operating as Central controllers, that terminate the Light Weight Access Point Protocol tunnel from Cisco Light-weight LWAPP Access Points. This MIB provides the information about the operational parameters of the 802.11 networks. References about specific type of 802.11 flavors like 802.11a/b/g or 802.11n will be made whereever required to indicate that the respective parameters are applicable only to that particular type of 802.11 networks. The relationship between CC and the LWAPP APs can be depicted as follows: +......+ +......+ +......+ + + + + + + + CC + + CC + + CC + + + + + + + +......+ +......+ +......+ .. . . .. . . . . . . . . . . . . . . . . . . +......+ +......+ +......+ +......+ + + + + + + + + + AP + + AP + + AP + + AP + + + + + + + + + +......+ +......+ +......+ +......+ . . . . . . . . . . . . . . . . . . . +......+ +......+ +......+ +......+ + + + + + + + + + MN + + MN + + MN + + MN + + + + + + + + + +......+ +......+ +......+ +......+ The LWAPP tunnel exists between the controller and the APs. The MNs communicate with the APs through the protocol defined by the 802.11 standard. LWAPP APs, upon bootup, discover and join one of the controllers and the controller pushes the configuration, that includes the WLAN parameters, to the LWAPP APs. The APs then encapsulate all the 802.11 frames from wireless clients inside LWAPP frames and forward the LWAPP frames to the controller. GLOSSARY Access Point ( AP ) An entity that contains an 802.11 medium access control ( MAC ) and physical layer ( PHY ) interface and provides access to the distribution services via the wireless medium for associated clients. LWAPP APs encapsulate all the 802.11 frames in LWAPP frames and sends them to the controller to which it is logically connected. Gratuitous Probe Response (GPR) The Gratuitous Probe Response feature aids in conserving battery power of WLAN-enabled cell phones by providing a high rate packet on the order of tens of milliseconds such that these kind of phones can wake up and wait at predefined intervals, to reduce battery power. The GPR packet is transmitted from the AP at a predefined time interval. Light Weight Access Point Protocol ( LWAPP ) This is a generic protocol that defines the communication between the Access Points and the Central Controller. Mobile Node ( MN ) A roaming 802.11 wireless device in a wireless network associated with an access point. Mobile Node and client are used interchangeably. TU A measurement of time in units of 1024 microseconds. 802.11n 802.11n builds upon previous 802.11 standards by adding MIMO (multiple-input multiple-output). MIMO uses multiple transmitter and receiver antennas to allow for increased data throughput through spatial multiplexing and increased range . A-MPDU An aggregated format that consists of several MAC Protocol Data Units being aggregated and transmitted in one PHY Service Data Unit. A-MSDU An aggregated format that consists of several MAC Service Data Units being aggregated and transmitted in one MAC Protocol Data Unit. Reduced Inter-Frame Space ( RIFS ) A time interval between multiple transmissions of a single transmitter used to reduce overhead and increase network efficiency. Modulation and Coding Scheme ( MCS ) This is a value that determines the modulation, coding and number of spatial channels. Each scheme specifies the modulation technique, coding rate , number of spatial streams etc and the corresponding data rate. Guard Interval Guard intervals are used to ensure that distinct transmissions do not interfere with one another. The purpose of the guard interval is to introduce immunity to propagation delays, echoes and reflections, to which digital data is normally very sensitive. Media Access Control ( MAC ) The Media Access Control Layer is one of two sublayers that make up the Data Link Layer. The MAC layer is responsible for moving data packets to and from one Network Interface Card (NIC) to another across a shared channel. REFERENCE [1] Wireless LAN Medium Access Control ( MAC ) and Physical Layer ( PHY ) Specifications. [2] Draft-obara-Capwap-lwapp-00.txt, IETF Light Weight Access Point Protocol. [3] Enhanced Wireless Consortium MAC Specification, v1.24. [4] Enhanced Wireless Consortium PHY Specification, v1.27." REVISION "200701040000Z" DESCRIPTION "Initial version of this MIB module." ::= { ciscoMgmt 612 }

    Information by cisco

    ciscoLwappDot11MIB MODULE-IDENTITY LAST-UPDATED "200701040000Z" ORGANIZATION "Cisco Systems Inc." CONTACT-INFO "Cisco Systems, Customer Service Postal: 170 West Tasman Drive San Jose, CA 95134 USA Tel: +1 800 553-NETS Email: [email protected]" DESCRIPTION "This MIB is intended to be implemented on all those devices operating as Central controllers, that terminate the Light Weight Access Point Protocol tunnel from Cisco Light-weight LWAPP Access Points. This MIB provides the information about the operational parameters of the 802.11 networks. References about specific type of 802.11 flavors like 802.11a/b/g or 802.11n will be made whereever required to indicate that the respective parameters are applicable only to that particular type of 802.11 networks. The relationship between CC and the LWAPP APs can be depicted as follows: +......+ +......+ +......+ + + + + + + + CC + + CC + + CC + + + + + + + +......+ +......+ +......+ .. . . .. . . . . . . . . . . . . . . . . . . +......+ +......+ +......+ +......+ + + + + + + + + + AP + + AP + + AP + + AP + + + + + + + + + +......+ +......+ +......+ +......+ . . . . . . . . . . . . . . . . . . . +......+ +......+ +......+ +......+ + + + + + + + + + MN + + MN + + MN + + MN + + + + + + + + + +......+ +......+ +......+ +......+ The LWAPP tunnel exists between the controller and the APs. The MNs communicate with the APs through the protocol defined by the 802.11 standard. LWAPP APs, upon bootup, discover and join one of the controllers and the controller pushes the configuration, that includes the WLAN parameters, to the LWAPP APs. The APs then encapsulate all the 802.11 frames from wireless clients inside LWAPP frames and forward the LWAPP frames to the controller. GLOSSARY Access Point ( AP ) An entity that contains an 802.11 medium access control ( MAC ) and physical layer ( PHY ) interface and provides access to the distribution services via the wireless medium for associated clients. LWAPP APs encapsulate all the 802.11 frames in LWAPP frames and sends them to the controller to which it is logically connected. Gratuitous Probe Response (GPR) The Gratuitous Probe Response feature aids in conserving battery power of WLAN-enabled cell phones by providing a high rate packet on the order of tens of milliseconds such that these kind of phones can wake up and wait at predefined intervals, to reduce battery power. The GPR packet is transmitted from the AP at a predefined time interval. Light Weight Access Point Protocol ( LWAPP ) This is a generic protocol that defines the communication between the Access Points and the Central Controller. Mobile Node ( MN ) A roaming 802.11 wireless device in a wireless network associated with an access point. Mobile Node and client are used interchangeably. TU A measurement of time in units of 1024 microseconds. 802.11n 802.11n builds upon previous 802.11 standards by adding MIMO (multiple-input multiple-output). MIMO uses multiple transmitter and receiver antennas to allow for increased data throughput through spatial multiplexing and increased range . A-MPDU An aggregated format that consists of several MAC Protocol Data Units being aggregated and transmitted in one PHY Service Data Unit. A-MSDU An aggregated format that consists of several MAC Service Data Units being aggregated and transmitted in one MAC Protocol Data Unit. Reduced Inter-Frame Space ( RIFS ) A time interval between multiple transmissions of a single transmitter used to reduce overhead and increase network efficiency. Modulation and Coding Scheme ( MCS ) This is a value that determines the modulation, coding and number of spatial channels. Each scheme specifies the modulation technique, coding rate , number of spatial streams etc and the corresponding data rate. Guard Interval Guard intervals are used to ensure that distinct transmissions do not interfere with one another. The purpose of the guard interval is to introduce immunity to propagation delays, echoes and reflections, to which digital data is normally very sensitive. Media Access Control ( MAC ) The Media Access Control Layer is one of two sublayers that make up the Data Link Layer. The MAC layer is responsible for moving data packets to and from one Network Interface Card (NIC) to another across a shared channel. REFERENCE [1] Wireless LAN Medium Access Control ( MAC ) and Physical Layer ( PHY ) Specifications. [2] Draft-obara-Capwap-lwapp-00.txt, IETF Light Weight Access Point Protocol. [3] Enhanced Wireless Consortium MAC Specification, v1.24. [4] Enhanced Wireless Consortium PHY Specification, v1.27." REVISION "200701040000Z" DESCRIPTION "Initial version of this MIB module." ::= { ciscoMgmt 612 }

    First Registration Authority (recovered by parent 1.3.6.1.4.1.9)

    Greg Satz

    Current Registration Authority (recovered by parent 1.3.6.1.4.1.9)

    Cisco Systems, Inc.

    Children (3)

    OIDNameSub childrenSub Nodes TotalDescription
    1.3.6.1.4.1.9.9.612.0 ciscoLwappDot11MIBNotifs 0 0 None
    1.3.6.1.4.1.9.9.612.1 ciscoLwappDot11MIBObjects 2 10 None
    1.3.6.1.4.1.9.9.612.2 ciscoLwappDot11MIBConform 2 4 None

    Brothers (645)

    To many brothers! Only 100 nearest brothers are shown.

    OIDNameSub childrenSub Nodes TotalDescription
    ...
    1.3.6.1.4.1.9.9.572 ciscoRttMonIPExtMIB 2 38 This MIB contains extensions to tables in CISCO-RTTMON-MIB
    to support IP-layer extensions, specifically IPv6 addresses
    and other …
    1.3.6.1.4.1.9.9.573 ciscoQosTcMIB 0 0 This module defines the textual conventions used within
    Cisco Qos MIBs.
    1.3.6.1.4.1.9.9.576 ciscoLwappMobilityMIB 3 60 This MIB is intended to be implemented on all those
    devices operating as Central Controllers (CC) that

    terminate the Light Weight…
    1.3.6.1.4.1.9.9.577 ciscoLwappAclMIB 3 26 This MIB is intended to be implemented on all those
    devices operating as Central Controllers (CC) that
    terminate the Light Weight…
    1.3.6.1.4.1.9.9.578 ciscoRoutePoliciesMIB 3 5 This module provides a subtree to define OIDs so that
    various routing 'policies' used by Cisco routers can be
    expressed. This mod…
    1.3.6.1.4.1.9.9.580 ciscoSwitchQosMIB 3 295 This MIB module extends the CISCO-CLASS-BASED-QOS-MIB
    by defining configuration and statistics information
    specific to the qualit…
    1.3.6.1.4.1.9.9.583 ciscoGslbTcMIB 0 0 This MIB module defines Textual Conventions and
    OBJECT-IDENTITIES for use in documents defining
    management information base (MIBs…
    1.3.6.1.4.1.9.9.584 ciscoEntityDiagTcMIB 0 0 This module defines the textual conventions used within
    Cisco Entity Diag MIB.
    1.3.6.1.4.1.9.9.585 ciscoIpSlaEthernetMIB 3 194 This MIB module consists of two parts.

    1) Auto-Ethernet-CFM Control:
    |
    |

    2) ethernetJitter Stats:
    |
    |

    The first part defines a mechani…
    1.3.6.1.4.1.9.9.586 ciscoNotificationControlMIB 2 28 This MIB provides network management support to regulate
    the transmission of notifications generated by a
    system providing networ…
    1.3.6.1.4.1.9.9.589 ciscoGslbSystemMIB 3 103 This MIB module defines objects for network and system
    information of Global Server Load Balancer(GSLB) as a
    network device. A G…
    1.3.6.1.4.1.9.9.590 ciscoCvpMIB 3 255 The Cisco Unified Customer Voice Portal (CVP) application
    integrates with both traditional time-division multiplexing
    (TDM) and I…
    1.3.6.1.4.1.9.9.592 ciscoPrefPathMIB 3 56 The MIB module for the management of
    preferred path. This MIB enables managers
    to configure and monitor Preferred Path
    parameters.…
    1.3.6.1.4.1.9.9.593 ciscoFcSdvMIB 3 28 This MIB instrumentation is for managing Fibre
    Channel (FC) SAN Device Virtualization (SDV)
    solution on Cisco Fibre Channel devic…
    1.3.6.1.4.1.9.9.594 ciscoApplicationAccelerationMIB 3 37 This is a MIB for managing Application Acceleration System(s).
    This MIB includes instrumentation for providing the
    performance st…
    1.3.6.1.4.1.9.9.595 ciscoGslbDnsMIB 3 165 The MIB defines objects for status and statistics
    information of DNS related operations of
    Global Server Load Balancer(GSLB). Th…
    1.3.6.1.4.1.9.9.597 ciscoContentServicesMIB 3 349 Content Service is a capability to examine IP/TCP/UDP headers,
    payload and enable billing based on the content being provided.

    Ab…
    1.3.6.1.4.1.9.9.598 ciscoLwappAAAMIB 3 73 This MIB is intended to be implemented on all those
    devices operating as Central Controllers (CC), that
    terminate the Light Weigh…
    1.3.6.1.4.1.9.9.599 ciscoLwappDot11ClientMIB 4 49 This MIB is intended to be implemented on all those
    devices operating as Central controllers, that
    terminate the Light Weight Acc…
    1.3.6.1.4.1.9.9.600 ciscoGslbHealthMonMIB 3 90 The MIB defines objects related to global keepalive
    properties in GSLB devices. It contains the tables
    for keep alive configurat…
    1.3.6.1.4.1.9.9.601 ciscoResilientEthernetProtocolMIB 3 77 This MIB module defines objects required for managing
    Resilient Ethernet Protocol (REP).

    Resilient Ethernet Protocol (REP) is a C…
    1.3.6.1.4.1.9.9.602 ciscoPacketCaptureMIB 3 103 The MIB module for the management of packet capture
    feature.
    1.3.6.1.4.1.9.9.603 ciscoThreatMitigationServiceMIB 3 68 This MIB provides management information about the Threat
    Mitigation Service(TMS) entity named 'Consumer'. TMS is part
    of Cisco's…
    1.3.6.1.4.1.9.9.604 cdot1CfmMIB 3 166 Connectivity Fault Management module for managing IEEE 802.1ag
    1.3.6.1.4.1.9.9.606 ciscoLwappMeshLinkTestMIB 3 46 ciscoLwappMeshLinkTestMIB MODULE-IDENTITY
    LAST-UPDATED "200702050000Z"
    ORGANIZATION "Cisco Systems Inc."
    CONTACT-INFO
    "Cisco Sy…
    1.3.6.1.4.1.9.9.607 ciscoDot11HtPhyMIB 3 71 This MIB is intended to be implemented on Cisco's
    WLAN devices that provide the wired uplink to wireless
    clients through the high…
    1.3.6.1.4.1.9.9.610 ciscoLwappRogueMIB 3 78 This MIB is intended to be implemented on all those
    devices operating as Central Controllers, that
    terminate the Light Weight Acc…
    1.3.6.1.4.1.9.9.611 ciscoLwappDot11ClientCCXTextualConventions 0 0 This module defines the textual conventions used
    throughout the Cisco enterprise MIBs designed for
    implementation on Central Cont…
    1.3.6.1.4.1.9.9.613 ciscoEvcMIB 3 156 Metro Ethernet services can support a wide range of
    applications and subscriber needs easily, efficiently
    and cost-effectively. …
    1.3.6.1.4.1.9.9.614 ciscoLwappDot11LdapMIB 3 33 This MIB is intended to be implemented on all those
    devices operating as Central controllers, that
    terminate the Light Weight Acc…
    1.3.6.1.4.1.9.9.615 ciscoLwappRrmMIB 3 28 This MIB is intended to be implemented on all those
    devices operating as Central controllers, that
    terminate the Light Weight Acc…
    1.3.6.1.4.1.9.9.616 ciscoLwappMeshMIB 3 121 This MIB is intended to be implemented on all those
    devices operating as Central Controllers (CC) that
    terminate the Light Weight…
    1.3.6.1.4.1.9.9.617 ciscoLwappMeshStatsMIB 4 98 This MIB is intended to be implemented on all those
    devices operating as Central Controllers (CC) that
    terminate the Light Weight…
    1.3.6.1.4.1.9.9.618 ciscoLwappSysMIB 3 163 This MIB is intended to be implemented on all those
    devices operating as Central controllers, that
    terminate the Light Weight Acc…
    1.3.6.1.4.1.9.9.619 ciscoLwappLocalAuthMIB 3 53 This MIB is intended to be implemented on all those
    devices operating as Central controllers, that
    terminate the Light Weight Acc…
    1.3.6.1.4.1.9.9.620 ciscoLwappMeshBatteryMIB 3 34 This MIB is intended to be implemented on all those
    devices operating as Central Controllers (CC) that
    terminate the Light Weight…
    1.3.6.1.4.1.9.9.621 ciscoH324DialControlMIB 2 34 This MIB module enhances the IETF Dial Control MIB
    (RFC2128) by providing H.324 call information over
    a telephony network.

    ITU-T R…
    1.3.6.1.4.1.9.9.622 ciscoLwappDot11ClientTsMIB 3 34 This MIB is intended to be implemented on all those
    devices operating as Central controllers, that
    terminate the Light Weight Acc…
    1.3.6.1.4.1.9.9.623 ciscoLwappCdpMIB 3 51 This MIB is intended to be implemented on all those
    devices operating as Central Controllers (CC) that
    terminate the Light Weight…
    1.3.6.1.4.1.9.9.624 ciscoIpSlaTCMIB 0 0 This MIB contains textual conventions used by
    CISCO IPSLA MIBs.

    Acronyms:
    FEC: Forward Equivalence Class
    LPD: Label Path Discovery
    L…
    1.3.6.1.4.1.9.9.626 ciscoDot11HtMacMIB 3 40 This MIB is intended to be implemented on Cisco's
    WLAN devices that provide the wired uplink to wireless
    clients through the high…
    1.3.6.1.4.1.9.9.627 ciscoDot11RadarMIB 3 25 This MIB module is for IEEE 802.11a/h Root device,
    i.e. Access Point (AP) or Root Bridge. This MIB
    allows dynamic frequency selec…
    1.3.6.1.4.1.9.9.628 ciscoServiceControlSubscribersMIB 3 37 This MIB provides global and specific information on
    subscribers managed by a service control entity, which is a
    network element …
    1.3.6.1.4.1.9.9.630 ciscoTelnetServerMIB 3 34 MIB module for displaying and configuring
    Telnet related features in a device.
    Telnet is a program to log into another computer o…
    1.3.6.1.4.1.9.9.631 ciscoServiceControlLinkMIB 3 21 This MIB module provides information about the status and
    configuration of links used by service control entities.

    The link on a …
    1.3.6.1.4.1.9.9.632 ciscoSmeMIB 3 54 MIB module to manage Storage Media Encryption (SME) service.
    SME is an encryption service provided by an encryption node
    residing…
    1.3.6.1.4.1.9.9.633 ciscoIpSlaAutoMIB 3 57 This module defines the MIB for IP SLA Automation. IP SLA
    Automation consists of the following:
    1. Use of grouping - Group is an …
    1.3.6.1.4.1.9.9.634 ciscoServiceControlTpStatsMIB 3 39 This MIB provides information and statistics on the traffic
    processor(s) of a service control entity, which is a network
    element …
    1.3.6.1.4.1.9.9.635 ciscoIpSlaJitterMIB 3 57 This MIB module defines templates for IP SLA operations of UDP
    Jitter and ICMP Jitter.

    The UDP Jitter operation is designed to me…
    1.3.6.1.4.1.9.9.636 ciscoIpSlaEchoMIB 3 71 This MIB module defines the templates for IP SLA operations of
    ICMP echo, UDP echo and TCP connect.

    The ICMP echo operation measu…
    1.3.6.1.4.1.9.9.637 ciscoServiceControlRdrMIB 3 56 This MIB module defines objects describing statistics and
    configuration relating to the Raw Data Record Formatter running
    on a se…
    1.3.6.1.4.1.9.9.638 ciscoAgwMIB 3 324 This module manages Cisco's WiMAX ASN Gateway (ASN-GW).
    A WiMAX network supports wireless data communication through
    WiMAX radio …
    1.3.6.1.4.1.9.9.639 ciscoOtnIfMIB 3 137 This MIB module defines the managed objects for physical layer
    characteristics of DWDM optical channel interfaces and performanc…
    1.3.6.1.4.1.9.9.640 ciscoImageLicenseMgmtMIB 3 31 The MIB module for managing the running image level
    of a Cisco device. Cisco's licensing mechanism provides
    flexibility to run a …
    1.3.6.1.4.1.9.9.642 ciscoBridgeDomainMIB 3 24 A bridge domain is one of the means by which it is possible
    to define a broadcast domain on a bridging device. It is an
    alternati…
    1.3.6.1.4.1.9.9.643 ciscoTelepresenceMIB 3 119 The MIB module defines the managed objects for a
    Telepresence system.

    Telepresence refers to a set of technologies which
    allow a p…
    1.3.6.1.4.1.9.9.644 ciscoTelepresenceCallMIB 3 178 The MIB module defines the managed objects for
    Telepresence calls.

    Telepresence refers to a set of technologies which
    allow a pers…
    1.3.6.1.4.1.9.9.645 ciscoEtherExtMIB 3 18 The MIB module to describe generic objects for
    ethernet-like network interfaces.

    This MIB provides ethernet-like network interfac…
    1.3.6.1.4.1.9.9.646 ciscoAonStatusMIB 3 80 This MIB module defines managed objects that facilitate the
    management of AON node.

    The information available through this MIB in…
    1.3.6.1.4.1.9.9.647 ciscoGgsnExtMIB 3 212 This MIB module extends the CISCO-GGSN-MIB.

    This MIB module manages the Gateway GPRS Support
    Node (GGSN) devices.

    A GGSN device pr…
    1.3.6.1.4.1.9.9.648 ciscoVirtualInterfaceMIB 2 32 The MIB module for creation and deletion of Virtual Interfaces
    and Virtual Interface Groups. In addition to this MIB,
    interface …
    1.3.6.1.4.1.9.9.650 ciscoL4L7moduleRedundancyMIB 3 71 The L4-7 SLB devices are used
    for scaling websites, building web
    enabled applications, and migrating
    to web services. The followin…
    1.3.6.1.4.1.9.9.651 ciscoCommonRolesExtMIB 3 37 A MIB Module for managing the roles that are common
    between access methods like Command Line Interface (CLI),
    SNMP and XML interf…
    1.3.6.1.4.1.9.9.652 ciscoSwitchStatsMIB 3 106 The MIB module provides management information for
    configuration and monitoring of traffic statistics
    on Cisco's switching device…
    1.3.6.1.4.1.9.9.653 ciscoAdmissionPolicyMIB 3 36 This MIB module defines managed objects that facilitate
    the management of policies upon host(s) admission to
    a network.

    The inform…
    1.3.6.1.4.1.9.9.654 ciscoMabMIB 3 20 MIB module for monitoring and configuring MAC
    Authentication Bypass (MAB) feature in the system.

    MAC Auth Bypass feature provides…
    1.3.6.1.4.1.9.9.655 ciscoDigitalMediaSystemsMIB 3 195 Acronyms and Definitions

    The following acronyms and terms are used in this
    document:

    DMS: Digital Media Systems

    DAM: Digital As…
    1.3.6.1.4.1.9.9.656 ciscoAuthFrameworkMIB 3 117 MIB module for Authentication Framework in the system.

    Authentication Framework provides generic configurations
    for authenticatio…
    1.3.6.1.4.1.9.9.657 ciscoSbcCallStatsMIB 3 201 The main purpose of this MIB is to define the statistics
    information for Session Border Controller application. The
    statistics ar…
    1.3.6.1.4.1.9.9.658 ciscoSessBorderCtrlrEventMIB 3 208 The main purpose of this MIB is to define the SNMP
    notifications and alarms generated by Session Border Controller
    application an…
    1.3.6.1.4.1.9.9.660 ciscoNportVirtualizationMIB 3 19 The MIB module for the management of N_port
    Virtualization or NPV within the framework of Cisco's
    N_port virtualization (NPV) Arc…
    1.3.6.1.4.1.9.9.661 ciscoWan3gMIB 3 378 This MIB module provides network management
    support for Cisco cellular 3G WAN products.

    *** ABBREVIATIONS, ACRONYMS, AND SYMBOLS …
    1.3.6.1.4.1.9.9.662 ciscoCbpTcMIB 0 0 This MIB module defines textual conventions used by the
    CISCO-CBP-BASE-CFG-MIB, CISCO-CBP-BASE-MON-MIB, and any MIB
    modules exten…
    ...