In general, cell transmission delay is more sensitive for real time video service rather than cell losses in a wireless ATM network. Existing handoff schemes, which are emphasizing the prevention of cell losses, have limitations in cell transmission delay
In this paper, we propose a personal-computer-based wireless data access system, which use DS/SS(Direct Sequence Spread Spectrum) method and the ISM band of 2.44㎓ radio frequency. By applying bi-directional transmission between wireless handy terminals an
In this paper, we propose a personal-computer-based wireless data access system, which used direct sequence spread spectrum method and the ISM band with 2.44GHz radio frequency. By applying bi-directional transmission between wireless handy terminals and PC or servers, it can be effectively connected with any kinds of database systems such as Oracle, MS-SQL and Access. Therefore it could economically be used as peripheral equipments for ERP or SCM system.
In general, real-time video service is more sensitive to cell transmission delay than to cell loss. Existing handoff schemes emphasizing prevention of cell loss had limitations in cell transmission delay to satisfy QoS (Quality of Service). Thus, a scheme to minimize transmission delay generated during the handoff maintaining the sequence of cells is proposed. In this paper, transmission delay can be reduced by transmitting ATM cells with low CLP (CLP=0) prior to others and by discarding cells with high CLP (CLP=1). The proposed scheme is proven to be suitable for delay-sensitive real-time VBR service and appropriate for fast handoffs by giving high CLP (Cell Lose Priority) to less meaningful MPEG frames.